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/*
* libretroshare / src / gxs : rsgxnetservice . cc
*
* Access to rs network and synchronisation service implementation
*
* Copyright 2012 - 2012 by Christopher Evi - Parker
*
* This library is free software ; you can redistribute it and / or
* modify it under the terms of the GNU Library General Public
* License Version 2 as published by the Free Software Foundation .
*
* This library is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the GNU
* Library General Public License for more details .
*
* You should have received a copy of the GNU Library General Public
* License along with this library ; if not , write to the Free Software
* Foundation , Inc . , 59 Temple Place , Suite 330 , Boston , MA 02111 - 1307
* USA .
*
* Please report all bugs and problems to " retroshare@lunamutt.com " .
*
*/
//
// RsNxsItem
// |
// +-- RsNxsSyncGrp send req for group list, with time stamp of what we have
// +-- RsNxsSyncMsg
// +-- RsNxsGroupPublishKeyItem
// +-- RsNxsSyncGrpItem send individual grp info with time stamps, authors, etc.
//
//
// tick()
// |
// +----------- sharePublishKeys()
// |
// +----------- syncWithPeers()
// | |
// | +--if AutoSync--- send global UpdateTS of each peer to itself => the peer knows the last
// | | time current peer has received an updated from himself
// | | type=RsNxsSyncGrp
// | | role: advise to request grp list for mServType
// | |
// | +--Retrive all grp Id + meta
// |
// | For each peer
// | For each grp to request
// | send RsNxsSyncMsg(ServiceType, grpId, updateTS)
// | |
// | (Only send if rand() < sendingProb()) +---comes from mClientMsgUpdateMap
// |
// +----------- recvNxsItemQueue()
// |
// +------ handleRecvPublishKeys(auto*)
// |
// |
// |
// +------ handleRecvSyncGroup( RsNxsSyncGrp*)
// | - parse all subscribed groups. For each, send a RsNxsSyncGrpItem with publish TS
// | - pack into a single RsNxsTransac item
// | |
// | +---- canSendGrpId(peer, grpMeta, toVet) // determines if put in vetting list
// | | | // or sent right away
// | | +--CIRCLES_TYPE_LOCAL------- false
// | | +--CIRCLES_TYPE_PUBLIC------ true
// | | +--CIRCLES_TYPE_EXTERNAL---- mCircles->canSend(circleId, getPgpId(peerId))
// | | +--CIRCLES_TYPE_YOUR_EYES--- internal circle stuff
// | |
// | +---- store in mPendingCircleVet ou directement locked_pushGrpRespFromList()
// |
// +------ handleRecvSyncMessage( RsNxsSyncMsg*)
// - parse msgs from group
// - send all msg IDs for this group
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// |
// +---- canSendMsgIds(msgMeta, grpMeta, peer)
// | |
// | +--CIRCLES_TYPE_LOCAL------- false
// | +--CIRCLES_TYPE_PUBLIC------ true
// | +--CIRCLES_TYPE_EXTERNAL---- mCircles->canSend(circleId, getPgpId(peerId))
// | +--CIRCLES_TYPE_YOUR_EYES--- internal circle stuff
// |
// +---- store in mPendingCircleVet ou directement locked_pushGrpRespFromList()
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// data_tick()
// |
// +----------- updateServerSyncTS()
// | - retrieve all group meta data
// | - updates mServerMsgUpdateMap[grpId]=grp->mLastPostTS for all grps
// | - updates mGrpServerUpdateItem to max of all received TS
// |
// +----------- processTransactions()
// |
// +----------- processCompletedTransactions()
// | |
// | +------ locked_processCompletedIncomingTrans()
// | | |
// | | +-------- locked_genReqMsgTransaction() // request messages based on list
// | | |
// | | +-------- locked_genReqGrpTransaction() // request groups based on list
// | | |
// | | +-------- locked_genSendMsgsTransaction() // send msg list
// | | |
// | | +-------- locked_genSendGrpsTransaction() // send group list
// | |
// | +------ locked_processCompletedOutgoingTrans()
// |
// +----------- processExplicitGroupRequests()
// | - parse mExplicitRequest and for each element (containing a grpId list),
// | send the group ID (?!?!)
// |
// +----------- runVetting()
// |
// +--------- sort items from mPendingResp
// | |
// | +------ locked_createTransactionFromPending(GrpRespPending / MsgRespPending)
// | | // takes accepted transaction and adds them to the list of active trans
// |
// +--------- sort items from mPendingCircleVetting
// |
// +------ locked_createTransactionFromPending(GrpCircleIdsRequestVetting / MsgCircleIdsRequestVetting)
// // takes accepted transaction and adds them to the list of active trans
//
// Objects for time stamps
// =======================
//
// mClientGrpUpdateMap: map< RsPeerId, TimeStamp > Time stamp of last modification of group data for that peer (in peer's clock time!)
// (Set at server side to be mGrpServerUpdateItem->grpUpdateTS)
//
// Only updated in processCompletedIncomingTransaction() from Grp list transaction.
// Used in syncWithPeers() sending in RsNxsSyncGrp once to all peers: peer will send data if
// has something new. All time comparisons are in the friends' clock time.
//
// mClientMsgUpdateMap: map< RsPeerId, map<grpId,TimeStamp > >
//
// Last msg list modification time sent by that peer Id
// Updated in processCompletedIncomingTransaction() from Grp list trans.
// Used in syncWithPeers() sending in RsNxsSyncGrp once to all peers.
// Set at server to be mServerMsgUpdateMap[grpId]->msgUpdateTS
//
// mGrpServerUpdateItem: TimeStamp Last group local modification timestamp over all groups
//
// mServerMsgUpdateMap: map< GrpId, TimeStamp > Timestamp local modification for each group (i.e. time of most recent msg / metadata update)
//
//
// Group update algorithm
// ======================
//
// CLient Server
// ====== ======
//
// tick() tick()
// | |
// +---- SyncWithPeers +-- recvNxsItemQueue()
// | |
// +---------------- Send global UpdateTS of each peer to itself => the peer knows +---------> +------ handleRecvSyncGroup( RsNxsSyncGrp*)
// | the last msg sent (stored in mClientGrpUpdateMap[peer_id]), | | - parse all subscribed groups. For each, send a RsNxsSyncGrpItem with publish TS
// | type=RsNxsSyncGrp | | - pack into a single RsNxsTransac item
// | role: advise to request grp list for mServType -------------------+ |
// | +--> +------ handleRecvSyncMessage( RsNxsSyncMsg*)
// +---------------- Retrieve all grp Id + meta | - parse msgs from group
// | | - send all msg IDs for this group
// +-- For each peer |
// For each grp to request |
// send RsNxsSyncMsg(ServiceType, grpId, updateTS) |
// | |
// (Only send if rand() < sendingProb()) +---comes from mClientMsgUpdateMap -----+
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//
//
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//
// Suggestions
// ===========
// * handleRecvSyncGroup should use mit->second.mLastPost to limit the sending of already known data
// X * apparently mServerMsgUpdateMap is initially empty -> by default clients will always want to receive the data.
// => new peers will always send data for each group until they get an update for that group.
// X * check that there is a timestamp for unsubscribed items, otherwise we always send TS=0 and we always get them!! (in 346)
//
// -> there is not. mClientMsgUpdateMap is updated when msgs are received.
// -> 1842: leaves before asking for msg content.
//
// Proposed changes:
// - for unsubsribed groups, mClientMsgUpdateMap[peerid][grpId]=now when the group list is received => wont be asked again
// - when we subscribe, we reset the time stamp.
//
// Better change:
// - each peer sends last
//
// * the last TS method is not perfect: do new peers always receive old messages?
//
// * there's double information between mServerMsgUpdateMap first element (groupId) and second->grpId
// * processExplicitGroupRequests() seems to send the group list that it was asked for without further information. How is that useful???
//
// * grps without messages will never be stamped because stamp happens in genReqMsgTransaction, after checking msgListL.empty()
// Problem: without msg, we cannot know the grpId!!
//
// * mClientMsgUpdateMap[peerid][grpId] is only updated when new msgs are received. Up to date groups will keep asking for lists!
# include <unistd.h>
# include <sys/time.h>
# include <math.h>
# include <sstream>
# include "rsgxsnetservice.h"
# include "gxssecurity.h"
# include "retroshare/rsconfig.h"
# include "retroshare/rsreputations.h"
# include "retroshare/rsgxsflags.h"
# include "retroshare/rsgxscircles.h"
# include "pgp/pgpauxutils.h"
# include "util/rsmemory.h"
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# include "util/stacktrace.h"
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/***
* Use the following defines to debug :
NXS_NET_DEBUG_0 shows group update high level information
NXS_NET_DEBUG_1 shows group update low level info ( including transaction details )
NXS_NET_DEBUG_2 bandwidth information
NXS_NET_DEBUG_3 publish key exchange
NXS_NET_DEBUG_4 vetting
NXS_NET_DEBUG_5 summary of transactions ( useful to just know what comes in / out )
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NXS_NET_DEBUG_6
NXS_NET_DEBUG_7 encryption / decryption of transactions
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* * */
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//#define NXS_NET_DEBUG_0 1
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//#define NXS_NET_DEBUG_1 1
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//#define NXS_NET_DEBUG_2 1
//#define NXS_NET_DEBUG_3 1
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//#define NXS_NET_DEBUG_4 1
//#define NXS_NET_DEBUG_5 1
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//#define NXS_NET_DEBUG_6 1
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//#define NXS_NET_DEBUG_7 1
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# define GIXS_CUT_OFF 0
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//#define NXS_FRAG
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// The constant below have a direct influence on how fast forums/channels/posted/identity groups propagate and on the overloading of queues:
//
// Channels/forums will update at a rate of SYNC_PERIOD*MAX_REQLIST_SIZE/60 messages per minute.
// A large TRANSAC_TIMEOUT helps large transactions to finish before anything happens (e.g. disconnexion) or when the server has low upload bandwidth,
// but also uses more memory.
// A small value for MAX_REQLIST_SIZE is likely to help messages to propagate in a chaotic network, but will also slow them down.
// A small SYNC_PERIOD fasten message propagation, but is likely to overload the server side of transactions (e.g. overload outqueues).
//
# define SYNC_PERIOD 60
# define MAX_REQLIST_SIZE 20 // No more than 20 items per msg request list => creates smaller transactions that are less likely to be cancelled.
# define TRANSAC_TIMEOUT 2000 // In seconds. Has been increased to avoid epidemic transaction cancelling due to overloaded outqueues.
# define SECURITY_DELAY_TO_FORCE_CLIENT_REUPDATE 3600 // force re-update if there happens to be a large delay between our server side TS and the client side TS of friends
# define REJECTED_MESSAGE_RETRY_DELAY 24*3600 // re-try rejected messages every 24hrs. Most of the time this is because the peer's reputation has changed.
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# define GROUP_STATS_UPDATE_DELAY 240 // update unsubscribed group statistics every 3 mins
# define GROUP_STATS_UPDATE_NB_PEERS 2 // number of peers to which the group stats are asked
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# define MAX_ALLOWED_GXS_MESSAGE_SIZE 199000 // 200,000 bytes including signature and headers
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static const uint32_t RS_NXS_ITEM_ENCRYPTION_STATUS_UNKNOWN = 0x00 ;
static const uint32_t RS_NXS_ITEM_ENCRYPTION_STATUS_NO_ERROR = 0x01 ;
static const uint32_t RS_NXS_ITEM_ENCRYPTION_STATUS_CIRCLE_ERROR = 0x02 ;
static const uint32_t RS_NXS_ITEM_ENCRYPTION_STATUS_ENCRYPTION_ERROR = 0x03 ;
static const uint32_t RS_NXS_ITEM_ENCRYPTION_STATUS_SERIALISATION_ERROR = 0x04 ;
static const uint32_t RS_NXS_ITEM_ENCRYPTION_STATUS_GXS_KEY_MISSING = 0x05 ;
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// Debug system to allow to print only for some IDs (group, Peer, etc)
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# if defined(NXS_NET_DEBUG_0) || defined(NXS_NET_DEBUG_1) || defined(NXS_NET_DEBUG_2) || defined(NXS_NET_DEBUG_3) \
| | defined ( NXS_NET_DEBUG_4 ) | | defined ( NXS_NET_DEBUG_5 ) | | defined ( NXS_NET_DEBUG_6 ) | | defined ( NXS_NET_DEBUG_7 )
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static const RsPeerId peer_to_print = RsPeerId ( std : : string ( " " ) ) ;
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static const RsGxsGroupId group_id_to_print = RsGxsGroupId ( std : : string ( " " ) ) ; // use this to allow to this group id only, or "" for all IDs
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static const uint32_t service_to_print = 0x215 ; // use this to allow to this service id only, or 0 for all services
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// warning. Numbers should be SERVICE IDS (see serialiser/rsserviceids.h. E.g. 0x0215 for forums)
class nullstream : public std : : ostream { } ;
static std : : string nice_time_stamp ( time_t now , time_t TS )
{
if ( TS = = 0 )
return " Never " ;
else
{
std : : ostringstream s ;
s < < now - TS < < " secs ago " ;
return s . str ( ) ;
}
}
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static std : : ostream & gxsnetdebug ( const RsPeerId & peer_id , const RsGxsGroupId & grp_id , uint32_t service_type )
{
static nullstream null ;
if ( ( peer_to_print . isNull ( ) | | peer_id . isNull ( ) | | peer_id = = peer_to_print )
& & ( group_id_to_print . isNull ( ) | | grp_id . isNull ( ) | | grp_id = = group_id_to_print )
& & ( service_to_print = = 0 | | service_type = = 0 | | ( ( service_type > > 8 ) & 0xffff ) = = service_to_print ) )
return std : : cerr < < time ( NULL ) < < " : " ;
else
return null ;
}
# define GXSNETDEBUG___ gxsnetdebug(RsPeerId(),RsGxsGroupId(),mServiceInfo.mServiceType)
# define GXSNETDEBUG_P_(peer_id ) gxsnetdebug(peer_id ,RsGxsGroupId(),mServiceInfo.mServiceType)
# define GXSNETDEBUG__G( group_id) gxsnetdebug(RsPeerId(),group_id ,mServiceInfo.mServiceType)
# define GXSNETDEBUG_PG(peer_id,group_id) gxsnetdebug(peer_id ,group_id ,mServiceInfo.mServiceType)
# endif
const uint32_t RsGxsNetService : : FRAGMENT_SIZE = 150000 ;
RsGxsNetService : : RsGxsNetService ( uint16_t servType , RsGeneralDataService * gds ,
RsNxsNetMgr * netMgr , RsNxsObserver * nxsObs ,
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const RsServiceInfo serviceInfo ,
RsGixsReputation * reputations , RsGcxs * circles , RsGixs * gixs ,
PgpAuxUtils * pgpUtils , bool grpAutoSync , bool msgAutoSync )
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: p3ThreadedService ( ) , p3Config ( ) , mTransactionN ( 0 ) ,
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mObserver ( nxsObs ) ,
mDataStore ( gds ) ,
mServType ( servType ) ,
mGixs ( gixs ) ,
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mTransactionTimeOut ( TRANSAC_TIMEOUT ) , mNetMgr ( netMgr ) , mNxsMutex ( " RsGxsNetService " ) ,
mSyncTs ( 0 ) , mLastKeyPublishTs ( 0 ) , mLastCleanRejectedMessages ( 0 ) , mSYNC_PERIOD ( SYNC_PERIOD ) , mCircles ( circles ) , mReputations ( reputations ) ,
mPgpUtils ( pgpUtils ) ,
mGrpAutoSync ( grpAutoSync ) , mAllowMsgSync ( msgAutoSync ) , mGrpServerUpdateItem ( NULL ) ,
mServiceInfo ( serviceInfo )
{
addSerialType ( new RsNxsSerialiser ( mServType ) ) ;
mOwnId = mNetMgr - > getOwnId ( ) ;
mUpdateCounter = 0 ;
}
RsGxsNetService : : ~ RsGxsNetService ( )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
for ( TransactionsPeerMap : : iterator it = mTransactions . begin ( ) ; it ! = mTransactions . end ( ) ; + + it )
{
for ( TransactionIdMap : : iterator it2 = it - > second . begin ( ) ; it2 ! = it - > second . end ( ) ; + + it2 )
delete it2 - > second ;
it - > second . clear ( ) ;
}
mTransactions . clear ( ) ;
delete mGrpServerUpdateItem ;
for ( ClientGrpMap : : iterator it = mClientGrpUpdateMap . begin ( ) ; it ! = mClientGrpUpdateMap . end ( ) ; + + it )
delete it - > second ;
mClientGrpUpdateMap . clear ( ) ;
for ( std : : map < RsGxsGroupId , RsGxsServerMsgUpdateItem * > : : iterator it ( mServerMsgUpdateMap . begin ( ) ) ; it ! = mServerMsgUpdateMap . end ( ) ; )
delete it - > second ;
mServerMsgUpdateMap . clear ( ) ;
}
int RsGxsNetService : : tick ( )
{
// always check for new items arriving
// from peers
if ( receivedItems ( ) )
recvNxsItemQueue ( ) ;
bool should_notify = false ;
{
RS_STACK_MUTEX ( mNxsMutex ) ;
should_notify = should_notify | | ! mNewGroupsToNotify . empty ( ) ;
should_notify = should_notify | | ! mNewMessagesToNotify . empty ( ) ;
}
if ( should_notify )
processObserverNotifications ( ) ;
time_t now = time ( NULL ) ;
time_t elapsed = mSYNC_PERIOD + mSyncTs ;
if ( ( elapsed ) < now )
{
syncWithPeers ( ) ;
syncGrpStatistics ( ) ;
mSyncTs = now ;
}
if ( now > 10 + mLastKeyPublishTs )
{
sharePublishKeysPending ( ) ;
mLastKeyPublishTs = now ;
}
if ( now > 3600 + mLastCleanRejectedMessages )
{
mLastCleanRejectedMessages = now ;
cleanRejectedMessages ( ) ;
}
return 1 ;
}
void RsGxsNetService : : processObserverNotifications ( )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ < < " Processing observer notification. " < < std : : endl ;
# endif
std : : vector < RsNxsGrp * > grps_copy ;
std : : vector < RsNxsMsg * > msgs_copy ;
{
RS_STACK_MUTEX ( mNxsMutex ) ;
grps_copy = mNewGroupsToNotify ;
msgs_copy = mNewMessagesToNotify ;
mNewGroupsToNotify . clear ( ) ;
mNewMessagesToNotify . clear ( ) ;
}
mObserver - > notifyNewGroups ( grps_copy ) ;
mObserver - > notifyNewMessages ( msgs_copy ) ;
}
void RsGxsNetService : : rejectMessage ( const RsGxsMessageId & msg_id )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
mRejectedMessages [ msg_id ] = time ( NULL ) ;
}
void RsGxsNetService : : cleanRejectedMessages ( )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
time_t now = time ( NULL ) ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ < < " Cleaning rejected messages. " < < std : : endl ;
# endif
for ( std : : map < RsGxsMessageId , time_t > : : iterator it ( mRejectedMessages . begin ( ) ) ; it ! = mRejectedMessages . end ( ) ; )
if ( it - > second + REJECTED_MESSAGE_RETRY_DELAY < now )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ < < " message id " < < it - > first < < " should be re-tried. removing from list... " < < std : : endl ;
# endif
std : : map < RsGxsMessageId , time_t > : : iterator tmp = it ;
+ + tmp ;
mRejectedMessages . erase ( it ) ;
it = tmp ;
}
else
+ + it ;
}
// This class collects outgoing items due to the broadcast of Nxs messages. It computes
// a probability that can be used to temper the broadcast of items so as to match the
// residual bandwidth (difference between max allowed bandwidth and current outgoing rate.
class NxsBandwidthRecorder
{
public :
static const int OUTQUEUE_CUTOFF_VALUE = 500 ;
static const int BANDWIDTH_ESTIMATE_DELAY = 20 ;
static void recordEvent ( uint16_t service_type , RsItem * item )
{
RS_STACK_MUTEX ( mtx ) ;
uint32_t bw = RsNxsSerialiser ( service_type ) . size ( item ) ; // this is used to estimate bandwidth.
timeval tv ;
gettimeofday ( & tv , NULL ) ;
// compute time(NULL) in msecs, for a more accurate bw estimate.
uint64_t now = ( uint64_t ) tv . tv_sec * 1000 + tv . tv_usec / 1000 ;
total_record + = bw ;
+ + total_events ;
# ifdef NXS_NET_DEBUG_2
std : : cerr < < " bandwidthRecorder::recordEvent() Recording event time= " < < now < < " . bw= " < < bw < < std : : endl ;
# endif
// Every 20 seconds at min, compute a new estimate of the required bandwidth.
if ( now > last_event_record + BANDWIDTH_ESTIMATE_DELAY * 1000 )
{
// Compute the bandwidth using recorded times, in msecs
float speed = total_record / 1024.0f / ( now - last_event_record ) * 1000.0f ;
// Apply a small temporal convolution.
estimated_required_bandwidth = 0.75 * estimated_required_bandwidth + 0.25 * speed ;
# ifdef NXS_NET_DEBUG_2
std : : cerr < < std : : dec < < " " < < total_record < < " Bytes ( " < < total_events < < " items) "
< < " received in " < < now - last_event_record < < " seconds. Speed: " < < speed < < " KBytes/sec " < < std : : endl ;
std : : cerr < < " instantaneous speed = " < < speed < < " KB/s " < < std : : endl ;
std : : cerr < < " cumulated estimated = " < < estimated_required_bandwidth < < " KB/s " < < std : : endl ;
# endif
last_event_record = now ;
total_record = 0 ;
total_events = 0 ;
}
}
// Estimate the probability of sending an item so that the expected bandwidth matches the residual bandwidth
static float computeCurrentSendingProbability ( )
{
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// FIXTESTS global variable rsConfig not available in unittests!
if ( rsConfig = = 0 )
{
std : : cerr < < " computeCurrentSendingProbability(): rsConfig not initialised, returning 1.0 " < < std : : endl ;
return 1.0 ;
}
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int maxIn = 50 , maxOut = 50 ;
float currIn = 0 , currOut = 0 ;
rsConfig - > GetMaxDataRates ( maxIn , maxOut ) ;
rsConfig - > GetCurrentDataRates ( currIn , currOut ) ;
RsConfigDataRates rates ;
rsConfig - > getTotalBandwidthRates ( rates ) ;
# ifdef NXS_NET_DEBUG_2
std : : cerr < < std : : dec < < std : : endl ;
# endif
float outqueue_factor = 1.0f / pow ( std : : max ( 0.02f , rates . mQueueOut / ( float ) OUTQUEUE_CUTOFF_VALUE ) , 5.0f ) ;
float accepted_bandwidth = std : : max ( 0.0f , maxOut - currOut ) ;
float max_bandwidth_factor = std : : min ( accepted_bandwidth / estimated_required_bandwidth , 1.0f ) ;
// We account for two things here:
// 1 - the required max bandwidth
// 2 - the current network overload, measured from the size of the outqueues.
//
// Only the later can limit the traffic if the internet connexion speed is responsible for outqueue overloading.
float sending_probability = std : : min ( outqueue_factor , max_bandwidth_factor ) ;
# ifdef NXS_NET_DEBUG_2
std : : cerr < < " bandwidthRecorder::computeCurrentSendingProbability() " < < std : : endl ;
std : : cerr < < " current required bandwidth : " < < estimated_required_bandwidth < < " KB/s " < < std : : endl ;
std : : cerr < < " max_bandwidth_factor : " < < max_bandwidth_factor < < std : : endl ;
std : : cerr < < " outqueue size : " < < rates . mQueueOut < < " , factor= " < < outqueue_factor < < std : : endl ;
std : : cerr < < " max out : " < < maxOut < < " , currOut= " < < currOut < < std : : endl ;
std : : cerr < < " computed probability : " < < sending_probability < < std : : endl ;
# endif
return sending_probability ;
}
private :
static RsMutex mtx ;
static uint64_t last_event_record ;
static float estimated_required_bandwidth ;
static uint32_t total_events ;
static uint64_t total_record ;
} ;
uint32_t NxsBandwidthRecorder : : total_events = 0 ; // total number of events. Not used.
uint64_t NxsBandwidthRecorder : : last_event_record = time ( NULL ) * 1000 ; // starting time of bw estimate period (in msec)
uint64_t NxsBandwidthRecorder : : total_record = 0 ; // total bytes recorded in the current time frame
float NxsBandwidthRecorder : : estimated_required_bandwidth = 10.0f ; // Estimated BW for sending sync data. Set to 10KB/s, to avoid 0.
RsMutex NxsBandwidthRecorder : : mtx ( " Bandwidth recorder " ) ; // Protects the recorder since bw events are collected from multiple GXS Net services
// temporary holds a map of pointers to class T, and destroys all pointers on delete.
template < class T >
class RsGxsMetaDataTemporaryMap : public std : : map < RsGxsGroupId , T * >
{
public :
virtual ~ RsGxsMetaDataTemporaryMap ( )
{
clear ( ) ;
}
virtual void clear ( )
{
for ( typename RsGxsMetaDataTemporaryMap < T > : : iterator it = this - > begin ( ) ; it ! = this - > end ( ) ; + + it )
if ( it - > second ! = NULL )
delete it - > second ;
std : : map < RsGxsGroupId , T * > : : clear ( ) ;
}
} ;
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template < class T >
class RsGxsMetaDataTemporaryMapVector : public std : : vector < T * >
{
public :
virtual ~ RsGxsMetaDataTemporaryMapVector ( )
{
clear ( ) ;
}
virtual void clear ( )
{
for ( typename RsGxsMetaDataTemporaryMapVector < T > : : iterator it = this - > begin ( ) ; it ! = this - > end ( ) ; + + it )
if ( it - > second ! = NULL )
delete it - > second ;
std : : vector < T * > : : clear ( ) ;
}
} ;
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void RsGxsNetService : : syncWithPeers ( )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ < < " RsGxsNetService::syncWithPeers() this= " < < ( void * ) this < < " . serviceInfo= " < < mServiceInfo < < std : : endl ;
# endif
static RsNxsSerialiser ser ( mServType ) ; // this is used to estimate bandwidth.
RS_STACK_MUTEX ( mNxsMutex ) ;
std : : set < RsPeerId > peers ;
mNetMgr - > getOnlineList ( mServiceInfo . mServiceType , peers ) ;
if ( peers . empty ( ) ) {
// nothing to do
return ;
}
std : : set < RsPeerId > : : iterator sit = peers . begin ( ) ;
// for now just grps
for ( ; sit ! = peers . end ( ) ; + + sit )
{
const RsPeerId peerId = * sit ;
ClientGrpMap : : const_iterator cit = mClientGrpUpdateMap . find ( peerId ) ;
uint32_t updateTS = 0 ;
if ( cit ! = mClientGrpUpdateMap . end ( ) )
{
const RsGxsGrpUpdateItem * gui = cit - > second ;
updateTS = gui - > grpUpdateTS ;
}
RsNxsSyncGrpReqItem * grp = new RsNxsSyncGrpReqItem ( mServType ) ;
grp - > clear ( ) ;
grp - > PeerId ( * sit ) ;
grp - > updateTS = updateTS ;
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//NxsBandwidthRecorder::recordEvent(mServType,grp) ;
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# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ ( * sit ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " sending global group TS of peer id: " < < * sit < < " ts= " < < nice_time_stamp ( time ( NULL ) , updateTS ) < < " (secs ago) to himself " < < std : : endl ;
# endif
sendItem ( grp ) ;
}
if ( ! mAllowMsgSync )
return ;
# ifndef GXS_DISABLE_SYNC_MSGS
typedef RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > GrpMetaMap ;
GrpMetaMap grpMeta ;
mDataStore - > retrieveGxsGrpMetaData ( grpMeta ) ;
GrpMetaMap toRequest ;
for ( GrpMetaMap : : iterator mit = grpMeta . begin ( ) ; mit ! = grpMeta . end ( ) ; + + mit )
{
RsGxsGrpMetaData * meta = mit - > second ;
// This was commented out because we want to know how many messages are available for unsubscribed groups.
if ( meta - > mSubscribeFlags & GXS_SERV : : GROUP_SUBSCRIBE_SUBSCRIBED )
{
toRequest . insert ( std : : make_pair ( mit - > first , meta ) ) ;
mit - > second = NULL ; // avoids destruction ;-)
}
}
sit = peers . begin ( ) ;
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// Jan. 26, 2016. This has been disabled, since GXS has been fixed, groups will not re-ask for data. So even if outqueues are filled up by multiple
// attempts of the same request, the transfer will eventually end up. The code for NxsBandwidthRecorder should be kept for a while,
// just in case.
// float sending_probability = NxsBandwidthRecorder::computeCurrentSendingProbability() ;
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# ifdef NXS_NET_DEBUG_2
std : : cerr < < " syncWithPeers(): Sending probability = " < < sending_probability < < std : : endl ;
# endif
// Synchronise group msg for groups which we're subscribed to
// For each peer and each group, we send to the peer the time stamp of the most
// recent modification the peer has sent. If the peer has more recent messages he will send them, because its latest
// modifications will be more recent. This ensures that we always compare timestamps all taken in the same
// computer (the peer's computer in this case)
for ( ; sit ! = peers . end ( ) ; + + sit )
{
const RsPeerId & peerId = * sit ;
// now see if you have an updateTS so optimise whether you need
// to get a new list of peer data
RsGxsMsgUpdateItem * mui = NULL ;
ClientMsgMap : : const_iterator cit = mClientMsgUpdateMap . find ( peerId ) ;
if ( cit ! = mClientMsgUpdateMap . end ( ) )
mui = cit - > second ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( peerId ) < < " syncing messages with peer " < < peerId < < std : : endl ;
# endif
GrpMetaMap : : const_iterator mmit = toRequest . begin ( ) ;
for ( ; mmit ! = toRequest . end ( ) ; + + mmit )
{
const RsGxsGrpMetaData * meta = mmit - > second ;
const RsGxsGroupId & grpId = mmit - > first ;
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RsGxsCircleId encrypt_to_this_circle_id ;
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if ( ! checkCanRecvMsgFromPeer ( peerId , * meta , encrypt_to_this_circle_id ) )
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continue ;
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# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( peerId , grpId ) < < " peer can send messages for group " < < grpId ;
if ( ! encrypt_to_this_circle_id . isNull ( ) )
std : : cerr < < " request should be encrypted for circle ID " < < encrypt_to_this_circle_id < < std : : endl ;
else
std : : cerr < < " request should be sent in clear. " < < std : : endl ;
# endif
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// On default, the info has never been received so the TS is 0, meaning the peer has sent that it had no information.
uint32_t updateTS = 0 ;
if ( mui )
{
std : : map < RsGxsGroupId , RsGxsMsgUpdateItem : : MsgUpdateInfo > : : const_iterator cit2 = mui - > msgUpdateInfos . find ( grpId ) ;
if ( cit2 ! = mui - > msgUpdateInfos . end ( ) )
updateTS = cit2 - > second . time_stamp ;
}
RsNxsSyncMsgReqItem * msg = new RsNxsSyncMsgReqItem ( mServType ) ;
msg - > clear ( ) ;
msg - > PeerId ( peerId ) ;
msg - > grpId = grpId ;
msg - > updateTS = updateTS ;
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if ( encrypt_to_this_circle_id . isNull ( ) )
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{
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_PG ( * sit , grpId ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " sending message TS of peer id: " < < * sit < < " ts= " < < nice_time_stamp ( time ( NULL ) , updateTS ) < < " (secs ago) for group " < < grpId < < " to himself - in clear " < < std : : endl ;
# endif
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sendItem ( msg ) ;
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}
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else
{
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# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_PG ( * sit , grpId ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " sending message TS of peer id: " < < * sit < < " ts= " < < nice_time_stamp ( time ( NULL ) , updateTS ) < < " (secs ago) for group " < < grpId < < " to himself - encrypted for circle " < < encrypt_to_this_circle_id < < std : : endl ;
# endif
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RsNxsItem * encrypted_item = NULL ;
uint32_t status ;
if ( encryptSingleNxsItem ( msg , encrypt_to_this_circle_id , encrypted_item , status ) )
sendItem ( encrypted_item ) ;
else
std : : cerr < < " (WW) could not encrypt for circle ID " < < encrypt_to_this_circle_id < < " . Not yet in cache? " < < std : : endl ;
delete msg ;
}
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# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_PG ( * sit , grpId ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " sending global message TS of peer id: " < < * sit < < " ts= " < < nice_time_stamp ( time ( NULL ) , updateTS ) < < " (secs ago) for group " < < grpId < < " to himself " < < std : : endl ;
# endif
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//}
//else
//{
// delete msg ;
//#ifdef NXS_NET_DEBUG_0
// GXSNETDEBUG_PG(*sit,grpId) << " cancel RsNxsSyncMsg req (last local update TS for group+peer) for grpId=" << grpId << " to peer " << *sit << ": not enough bandwidth." << std::endl;
//#endif
//}
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}
}
# endif
}
void RsGxsNetService : : syncGrpStatistics ( )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG___ < < " Sync-ing group statistics. " < < std : : endl ;
# endif
RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > grpMeta ;
mDataStore - > retrieveGxsGrpMetaData ( grpMeta ) ;
std : : set < RsPeerId > online_peers ;
mNetMgr - > getOnlineList ( mServiceInfo . mServiceType , online_peers ) ;
// Go through group statistics and groups without information are re-requested to random peers selected
// among the ones who provided the group info.
time_t now = time ( NULL ) ;
for ( std : : map < RsGxsGroupId , RsGxsGrpMetaData * > : : const_iterator it ( grpMeta . begin ( ) ) ; it ! = grpMeta . end ( ) ; + + it )
{
RsGroupNetworkStatsRecord & rec ( mGroupNetworkStats [ it - > first ] ) ;
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG__G ( it - > first ) < < " group " < < it - > first ;
# endif
if ( rec . update_TS + GROUP_STATS_UPDATE_DELAY < now & & rec . suppliers . size ( ) > 0 )
{
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG__G ( it - > first ) < < " needs update. Randomly asking to some friends " < < std : : endl ;
# endif
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// randomly select GROUP_STATS_UPDATE_NB_PEERS friends among the suppliers of this group
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uint32_t n = RSRandom : : random_u32 ( ) % rec . suppliers . size ( ) ;
std : : set < RsPeerId > : : const_iterator rit = rec . suppliers . begin ( ) ;
for ( uint32_t i = 0 ; i < n ; + + i )
+ + rit ;
for ( uint32_t i = 0 ; i < std : : min ( rec . suppliers . size ( ) , ( size_t ) GROUP_STATS_UPDATE_NB_PEERS ) ; + + i )
{
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// we started at a random position in the set, wrap around if the end is reached
if ( rit = = rec . suppliers . end ( ) )
rit = rec . suppliers . begin ( ) ;
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RsPeerId peer_id = * rit ;
+ + rit ;
if ( online_peers . find ( peer_id ) ! = online_peers . end ( ) ) // check that the peer is online
{
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG ( peer_id , it - > first ) < < " asking friend " < < peer_id < < " for an update of stats for group " < < it - > first < < std : : endl ;
# endif
RsNxsSyncGrpStatsItem * grs = new RsNxsSyncGrpStatsItem ( mServType ) ;
grs - > request_type = RsNxsSyncGrpStatsItem : : GROUP_INFO_TYPE_REQUEST ;
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grs - > grpId = it - > first ;
grs - > PeerId ( peer_id ) ;
sendItem ( grs ) ;
}
}
}
# ifdef NXS_NET_DEBUG_6
else
GXSNETDEBUG__G ( it - > first ) < < " up to date. " < < std : : endl ;
# endif
}
}
void RsGxsNetService : : handleRecvSyncGrpStatistics ( RsNxsSyncGrpStatsItem * grs )
{
if ( grs - > request_type = = RsNxsSyncGrpStatsItem : : GROUP_INFO_TYPE_REQUEST )
{
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG ( grs - > PeerId ( ) , grs - > grpId ) < < " Received Grp update stats Request for group " < < grs - > grpId < < " from friend " < < grs - > PeerId ( ) < < std : : endl ;
# endif
RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > grpMetas ;
grpMetas [ grs - > grpId ] = NULL ;
mDataStore - > retrieveGxsGrpMetaData ( grpMetas ) ;
RsGxsGrpMetaData * grpMeta = grpMetas [ grs - > grpId ] ;
if ( grpMeta = = NULL )
{
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG ( grs - > PeerId ( ) , grs - > grpId ) < < " Group is unknown. Not reponding. " < < std : : endl ;
# endif
return ;
}
// check if we're subscribed or not
if ( ! ( grpMeta - > mSubscribeFlags & GXS_SERV : : GROUP_SUBSCRIBE_SUBSCRIBED ) )
{
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG ( grs - > PeerId ( ) , grs - > grpId ) < < " Group is not subscribed. Not reponding. " < < std : : endl ;
# endif
return ;
}
// now count available messages
GxsMsgReq reqIds ;
reqIds [ grs - > grpId ] = std : : vector < RsGxsMessageId > ( ) ;
GxsMsgMetaResult result ;
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG ( grs - > PeerId ( ) , grs - > grpId ) < < " retrieving message information. " < < std : : endl ;
# endif
mDataStore - > retrieveGxsMsgMetaData ( reqIds , result ) ;
const std : : vector < RsGxsMsgMetaData * > & vec ( result [ grs - > grpId ] ) ;
if ( vec . empty ( ) ) // that means we don't have any, or there isn't any, but since the default is always 0, no need to send.
return ;
RsNxsSyncGrpStatsItem * grs_resp = new RsNxsSyncGrpStatsItem ( mServType ) ;
grs_resp - > request_type = RsNxsSyncGrpStatsItem : : GROUP_INFO_TYPE_RESPONSE ;
grs_resp - > number_of_posts = vec . size ( ) ;
grs_resp - > grpId = grs - > grpId ;
grs_resp - > PeerId ( grs - > PeerId ( ) ) ;
grs_resp - > last_post_TS = 0 ;
for ( uint32_t i = 0 ; i < vec . size ( ) ; + + i )
{
if ( grs_resp - > last_post_TS < vec [ i ] - > mPublishTs )
grs_resp - > last_post_TS = vec [ i ] - > mPublishTs ;
delete vec [ i ] ;
}
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG ( grs - > PeerId ( ) , grs - > grpId ) < < " sending back statistics item with " < < vec . size ( ) < < " elements. " < < std : : endl ;
# endif
sendItem ( grs_resp ) ;
}
else if ( grs - > request_type = = RsNxsSyncGrpStatsItem : : GROUP_INFO_TYPE_RESPONSE )
{
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG ( grs - > PeerId ( ) , grs - > grpId ) < < " Received Grp update stats item from peer " < < grs - > PeerId ( ) < < " for group " < < grs - > grpId < < " , reporting " < < grs - > number_of_posts < < " posts. " < < std : : endl ;
# endif
RS_STACK_MUTEX ( mNxsMutex ) ;
RsGroupNetworkStatsRecord & rec ( mGroupNetworkStats [ grs - > grpId ] ) ;
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uint32_t old_count = rec . max_visible_count ;
uint32_t old_suppliers_count = rec . suppliers . size ( ) ;
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rec . suppliers . insert ( grs - > PeerId ( ) ) ;
rec . max_visible_count = std : : max ( rec . max_visible_count , grs - > number_of_posts ) ;
rec . update_TS = time ( NULL ) ;
if ( old_count ! = rec . max_visible_count | | old_suppliers_count ! = rec . suppliers . size ( ) )
mObserver - > notifyChangedGroupStats ( grs - > grpId ) ;
}
else
std : : cerr < < " (EE) RsGxsNetService::handleRecvSyncGrpStatistics(): unknown item type " < < grs - > request_type < < " found. This is a bug. " < < std : : endl ;
}
void RsGxsNetService : : subscribeStatusChanged ( const RsGxsGroupId & grpId , bool subscribed )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
if ( ! subscribed )
return ;
// When we subscribe, we reset the time stamps, so that the entire group list
// gets requested once again, for a proper update.
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G ( grpId ) < < " Changing subscribe status for grp " < < grpId < < " to " < < subscribed < < " : reseting all server msg time stamps for this group, and server global TS. " < < std : : endl ;
# endif
std : : map < RsGxsGroupId , RsGxsServerMsgUpdateItem * > : : iterator it = mServerMsgUpdateMap . find ( grpId ) ;
if ( mServerMsgUpdateMap . end ( ) = = it )
{
RsGxsServerMsgUpdateItem * item = new RsGxsServerMsgUpdateItem ( mServType ) ;
item - > grpId = grpId ;
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item - > msgUpdateTS = time ( NULL ) ;
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}
else
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it - > second - > msgUpdateTS = time ( NULL ) ; // reset!
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// We also update mGrpServerUpdateItem so as to trigger a new grp list exchange with friends (friends will send their known ClientTS which
// will be lower than our own grpUpdateTS, triggering our sending of the new subscribed grp list.
if ( mGrpServerUpdateItem = = NULL )
mGrpServerUpdateItem = new RsGxsServerGrpUpdateItem ( mServType ) ;
mGrpServerUpdateItem - > grpUpdateTS = time ( NULL ) ;
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}
bool RsGxsNetService : : fragmentMsg ( RsNxsMsg & msg , MsgFragments & msgFragments ) const
{
// first determine how many fragments
uint32_t msgSize = msg . msg . TlvSize ( ) ;
uint32_t dataLeft = msgSize ;
uint8_t nFragments = ceil ( float ( msgSize ) / FRAGMENT_SIZE ) ;
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RsTemporaryMemory buffer ( FRAGMENT_SIZE ) ;
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int currPos = 0 ;
for ( uint8_t i = 0 ; i < nFragments ; + + i )
{
RsNxsMsg * msgFrag = new RsNxsMsg ( mServType ) ;
msgFrag - > grpId = msg . grpId ;
msgFrag - > msgId = msg . msgId ;
msgFrag - > meta = msg . meta ;
msgFrag - > transactionNumber = msg . transactionNumber ;
msgFrag - > pos = i ;
msgFrag - > PeerId ( msg . PeerId ( ) ) ;
msgFrag - > count = nFragments ;
uint32_t fragSize = std : : min ( dataLeft , FRAGMENT_SIZE ) ;
memcpy ( buffer , ( ( char * ) msg . msg . bin_data ) + currPos , fragSize ) ;
msgFrag - > msg . setBinData ( buffer , fragSize ) ;
currPos + = fragSize ;
dataLeft - = fragSize ;
msgFragments . push_back ( msgFrag ) ;
}
return true ;
}
bool RsGxsNetService : : fragmentGrp ( RsNxsGrp & grp , GrpFragments & grpFragments ) const
{
// first determine how many fragments
uint32_t grpSize = grp . grp . TlvSize ( ) ;
uint32_t dataLeft = grpSize ;
uint8_t nFragments = ceil ( float ( grpSize ) / FRAGMENT_SIZE ) ;
char buffer [ FRAGMENT_SIZE ] ;
int currPos = 0 ;
for ( uint8_t i = 0 ; i < nFragments ; + + i )
{
RsNxsGrp * grpFrag = new RsNxsGrp ( mServType ) ;
grpFrag - > grpId = grp . grpId ;
grpFrag - > meta = grp . meta ;
grpFrag - > pos = i ;
grpFrag - > count = nFragments ;
uint32_t fragSize = std : : min ( dataLeft , FRAGMENT_SIZE ) ;
memcpy ( buffer , ( ( char * ) grp . grp . bin_data ) + currPos , fragSize ) ;
grpFrag - > grp . setBinData ( buffer , fragSize ) ;
currPos + = fragSize ;
dataLeft - = fragSize ;
grpFragments . push_back ( grpFrag ) ;
}
return true ;
}
RsNxsMsg * RsGxsNetService : : deFragmentMsg ( MsgFragments & msgFragments ) const
{
if ( msgFragments . empty ( ) ) return NULL ;
// if there is only one fragment with a count 1 or less then
// the fragment is the msg
if ( msgFragments . size ( ) = = 1 )
{
RsNxsMsg * m = msgFragments . front ( ) ;
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if ( m - > count > 1 ) // normally mcount should be exactly 1, but if not initialised (old versions) it's going to be 0
{
// delete everything
std : : cerr < < " (WW) Cannot deFragment message set. m->count= " < < m - > count < < " , but msgFragments.size()= " < < msgFragments . size ( ) < < " . Incomplete? Dropping all. " < < std : : endl ;
for ( uint32_t i = 0 ; i < msgFragments . size ( ) ; + + i )
delete msgFragments [ i ] ;
msgFragments . clear ( ) ;
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return NULL ;
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}
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else
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{
// single piece. No need to say anything. Just return it.
msgFragments . clear ( ) ;
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return m ;
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}
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}
// first determine total size for binary data
MsgFragments : : iterator mit = msgFragments . begin ( ) ;
uint32_t datSize = 0 ;
for ( ; mit ! = msgFragments . end ( ) ; + + mit )
datSize + = ( * mit ) - > msg . bin_len ;
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RsTemporaryMemory data ( datSize ) ;
if ( ! data )
{
for ( uint32_t i = 0 ; i < msgFragments . size ( ) ; + + i )
delete msgFragments [ i ] ;
msgFragments . clear ( ) ;
return NULL ;
}
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uint32_t currPos = 0 ;
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std : : cerr < < " (II) deFragmenting long message of size " < < datSize < < " , from " < < msgFragments . size ( ) < < " pieces. " < < std : : endl ;
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for ( mit = msgFragments . begin ( ) ; mit ! = msgFragments . end ( ) ; + + mit )
{
RsNxsMsg * msg = * mit ;
memcpy ( data + ( currPos ) , msg - > msg . bin_data , msg - > msg . bin_len ) ;
currPos + = msg - > msg . bin_len ;
}
RsNxsMsg * msg = new RsNxsMsg ( mServType ) ;
const RsNxsMsg & m = * ( * ( msgFragments . begin ( ) ) ) ;
msg - > msg . setBinData ( data , datSize ) ;
msg - > msgId = m . msgId ;
msg - > grpId = m . grpId ;
msg - > transactionNumber = m . transactionNumber ;
msg - > meta = m . meta ;
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// now clean!
for ( uint32_t i = 0 ; i < msgFragments . size ( ) ; + + i )
delete msgFragments [ i ] ;
msgFragments . clear ( ) ;
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return msg ;
}
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// This is unused apparently, since groups are never large. Anyway, we keep it in case we need it.
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RsNxsGrp * RsGxsNetService : : deFragmentGrp ( GrpFragments & grpFragments ) const
{
if ( grpFragments . empty ( ) ) return NULL ;
// first determine total size for binary data
GrpFragments : : iterator mit = grpFragments . begin ( ) ;
uint32_t datSize = 0 ;
for ( ; mit ! = grpFragments . end ( ) ; + + mit )
datSize + = ( * mit ) - > grp . bin_len ;
char * data = new char [ datSize ] ;
uint32_t currPos = 0 ;
for ( mit = grpFragments . begin ( ) ; mit ! = grpFragments . end ( ) ; + + mit )
{
RsNxsGrp * grp = * mit ;
memcpy ( data + ( currPos ) , grp - > grp . bin_data , grp - > grp . bin_len ) ;
currPos + = grp - > grp . bin_len ;
}
RsNxsGrp * grp = new RsNxsGrp ( mServType ) ;
const RsNxsGrp & g = * ( * ( grpFragments . begin ( ) ) ) ;
grp - > grp . setBinData ( data , datSize ) ;
grp - > grpId = g . grpId ;
grp - > transactionNumber = g . transactionNumber ;
grp - > meta = g . meta ;
delete [ ] data ;
return grp ;
}
struct GrpFragCollate
{
RsGxsGroupId mGrpId ;
GrpFragCollate ( const RsGxsGroupId & grpId ) : mGrpId ( grpId ) { }
bool operator ( ) ( RsNxsGrp * grp ) { return grp - > grpId = = mGrpId ; }
} ;
void RsGxsNetService : : locked_createTransactionFromPending ( MsgRespPending * msgPend )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( msgPend - > mPeerId ) < < " locked_createTransactionFromPending() " < < std : : endl ;
# endif
MsgAuthorV : : const_iterator cit = msgPend - > mMsgAuthV . begin ( ) ;
std : : list < RsNxsItem * > reqList ;
uint32_t transN = locked_getTransactionId ( ) ;
for ( ; cit ! = msgPend - > mMsgAuthV . end ( ) ; + + cit )
{
const MsgAuthEntry & entry = * cit ;
if ( entry . mPassedVetting )
{
RsNxsSyncMsgItem * msgItem = new RsNxsSyncMsgItem ( mServType ) ;
msgItem - > grpId = entry . mGrpId ;
msgItem - > msgId = entry . mMsgId ;
msgItem - > authorId = entry . mAuthorId ;
msgItem - > flag = RsNxsSyncMsgItem : : FLAG_REQUEST ;
msgItem - > transactionNumber = transN ;
msgItem - > PeerId ( msgPend - > mPeerId ) ;
reqList . push_back ( msgItem ) ;
}
# ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_PG ( msgPend - > mPeerId , entry . mGrpId ) < < " entry failed vetting: grpId= " < < entry . mGrpId < < " , msgId= " < < entry . mMsgId < < " , peerId= " < < msgPend - > mPeerId < < std : : endl ;
# endif
}
if ( ! reqList . empty ( ) )
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locked_pushMsgTransactionFromList ( reqList , msgPend - > mPeerId , transN ) ;
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# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( msgPend - > mPeerId ) < < " added " < < reqList . size ( ) < < " items to transaction. " < < std : : endl ;
# endif
}
void RsGxsNetService : : locked_createTransactionFromPending ( GrpRespPending * grpPend )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( grpPend - > mPeerId ) < < " locked_createTransactionFromPending() from peer " < < grpPend - > mPeerId < < std : : endl ;
# endif
GrpAuthorV : : const_iterator cit = grpPend - > mGrpAuthV . begin ( ) ;
std : : list < RsNxsItem * > reqList ;
uint32_t transN = locked_getTransactionId ( ) ;
for ( ; cit ! = grpPend - > mGrpAuthV . end ( ) ; + + cit )
{
const GrpAuthEntry & entry = * cit ;
if ( entry . mPassedVetting )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( grpPend - > mPeerId , entry . mGrpId ) < < " entry Group Id: " < < entry . mGrpId < < " PASSED " < < std : : endl ;
# endif
RsNxsSyncGrpItem * msgItem = new RsNxsSyncGrpItem ( mServType ) ;
msgItem - > grpId = entry . mGrpId ;
msgItem - > authorId = entry . mAuthorId ;
msgItem - > flag = RsNxsSyncMsgItem : : FLAG_REQUEST ;
msgItem - > transactionNumber = transN ;
msgItem - > PeerId ( grpPend - > mPeerId ) ;
reqList . push_back ( msgItem ) ;
}
# ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_PG ( grpPend - > mPeerId , entry . mGrpId ) < < " entry failed vetting: grpId= " < < entry . mGrpId < < " , peerId= " < < grpPend - > mPeerId < < std : : endl ;
# endif
}
if ( ! reqList . empty ( ) )
locked_pushGrpTransactionFromList ( reqList , grpPend - > mPeerId , transN ) ;
}
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bool RsGxsNetService : : locked_createTransactionFromPending ( GrpCircleIdRequestVetting * grpPend )
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{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( grpPend - > mPeerId ) < < " locked_createTransactionFromPending(GrpCircleIdReq) " < < std : : endl ;
# endif
std : : vector < GrpIdCircleVet > : : iterator cit = grpPend - > mGrpCircleV . begin ( ) ;
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uint32_t transN = locked_getTransactionId ( ) ;
std : : list < RsNxsItem * > itemL ;
for ( ; cit ! = grpPend - > mGrpCircleV . end ( ) ; + + cit )
{
const GrpIdCircleVet & entry = * cit ;
if ( entry . mCleared )
{
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# ifdef NXS_NET_DEBUG_1
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GXSNETDEBUG_PG ( grpPend - > mPeerId , entry . mGroupId ) < < " Group Id: " < < entry . mGroupId < < " PASSED " < < std : : endl ;
# endif
RsNxsSyncGrpItem * gItem = new RsNxsSyncGrpItem ( mServType ) ;
gItem - > flag = RsNxsSyncGrpItem : : FLAG_RESPONSE ;
gItem - > grpId = entry . mGroupId ;
gItem - > publishTs = 0 ;
gItem - > PeerId ( grpPend - > mPeerId ) ;
gItem - > transactionNumber = transN ;
gItem - > authorId = entry . mAuthorId ;
// why it authorId not set here???
if ( entry . mShouldEncrypt )
{
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_PG ( grpPend - > mPeerId , entry . mGroupId ) < < " item for this grpId should be encrypted. " < < std : : endl ;
# endif
RsNxsItem * encrypted_item = NULL ;
uint32_t status = RS_NXS_ITEM_ENCRYPTION_STATUS_UNKNOWN ;
if ( encryptSingleNxsItem ( gItem , entry . mCircleId , encrypted_item , status ) )
{
itemL . push_back ( encrypted_item ) ;
delete gItem ;
}
# ifdef NXS_NET_DEBUG_7
else
GXSNETDEBUG_PG ( grpPend - > mPeerId , entry . mGroupId ) < < " Could not encrypt item for grpId " < < entry . mGroupId < < " for circle " < < entry . mCircleId < < " . Will try later. Adding to vetting list. " < < std : : endl ;
# endif
}
else
itemL . push_back ( gItem ) ;
}
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# ifdef NXS_NET_DEBUG_1
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else
GXSNETDEBUG_PG ( grpPend - > mPeerId , entry . mGroupId ) < < " Group Id: " < < entry . mGroupId < < " FAILED " < < std : : endl ;
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# endif
}
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if ( ! itemL . empty ( ) )
locked_pushGrpRespFromList ( itemL , grpPend - > mPeerId , transN ) ;
return true ;
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}
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bool RsGxsNetService : : locked_createTransactionFromPending ( MsgCircleIdsRequestVetting * msgPend )
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{
std : : vector < MsgIdCircleVet > : : iterator vit = msgPend - > mMsgs . begin ( ) ;
std : : list < RsNxsItem * > itemL ;
uint32_t transN = locked_getTransactionId ( ) ;
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RsGxsGroupId grp_id ;
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for ( ; vit ! = msgPend - > mMsgs . end ( ) ; + + vit )
{
MsgIdCircleVet & mic = * vit ;
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RsNxsSyncMsgItem * mItem = new RsNxsSyncMsgItem ( mServType ) ;
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mItem - > flag = RsNxsSyncGrpItem : : FLAG_RESPONSE ;
mItem - > grpId = msgPend - > mGrpId ;
mItem - > msgId = mic . mMsgId ;
mItem - > authorId = mic . mAuthorId ;
mItem - > PeerId ( msgPend - > mPeerId ) ;
mItem - > transactionNumber = transN ;
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grp_id = msgPend - > mGrpId ;
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if ( msgPend - > mShouldEncrypt )
{
RsNxsItem * encrypted_item = NULL ;
uint32_t status = RS_NXS_ITEM_ENCRYPTION_STATUS_UNKNOWN ;
if ( encryptSingleNxsItem ( mItem , msgPend - > mCircleId , encrypted_item , status ) )
{
itemL . push_back ( encrypted_item ) ;
delete mItem ;
}
else
{
std : : cerr < < " (EE) cannot encrypt Msg ids in circle-restriced response to grp " < < msgPend - > mGrpId < < " for circle " < < msgPend - > mCircleId < < std : : endl ;
return false ;
}
}
else
itemL . push_back ( mItem ) ;
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}
if ( ! itemL . empty ( ) )
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locked_pushMsgRespFromList ( itemL , msgPend - > mPeerId , grp_id , transN ) ;
return true ;
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}
/*bool RsGxsNetService::locked_canReceive(const RsGxsGrpMetaData * const grpMeta
, const RsPeerId & peerId )
{
double timeDelta = 0.2 ;
if ( grpMeta - > mCircleType = = GXS_CIRCLE_TYPE_EXTERNAL ) {
int i = 0 ;
mCircles - > loadCircle ( grpMeta - > mCircleId ) ;
// check 5 times at most
// spin for 1 second at most
while ( i < 5 ) {
if ( mCircles - > isLoaded ( grpMeta - > mCircleId ) ) {
const RsPgpId & pgpId = mPgpUtils - > getPGPId ( peerId ) ;
return mCircles - > canSend ( grpMeta - > mCircleId , pgpId ) ;
} //if(mCircles->isLoaded(grpMeta->mCircleId))
usleep ( ( int ) ( timeDelta * 1000 * 1000 ) ) ; // timeDelta sec
i + + ;
} //while(i < 5)
} else { //if(grpMeta->mCircleType == GXS_CIRCLE_TYPE_EXTERNAL)
return true ;
} //else (grpMeta->mCircleType == GXS_CIRCLE_TYPE_EXTERNAL)
return false ;
} */
void RsGxsNetService : : collateGrpFragments ( GrpFragments fragments ,
std : : map < RsGxsGroupId , GrpFragments > & partFragments ) const
{
// get all unique grpIds;
GrpFragments : : iterator vit = fragments . begin ( ) ;
std : : set < RsGxsGroupId > grpIds ;
for ( ; vit ! = fragments . end ( ) ; + + vit )
grpIds . insert ( ( * vit ) - > grpId ) ;
std : : set < RsGxsGroupId > : : iterator sit = grpIds . begin ( ) ;
for ( ; sit ! = grpIds . end ( ) ; + + sit )
{
const RsGxsGroupId & grpId = * sit ;
GrpFragments : : iterator bound = std : : partition (
fragments . begin ( ) , fragments . end ( ) ,
GrpFragCollate ( grpId ) ) ;
// something will always be found for a group id
for ( vit = fragments . begin ( ) ; vit ! = bound ; )
{
partFragments [ grpId ] . push_back ( * vit ) ;
vit = fragments . erase ( vit ) ;
}
GrpFragments & f = partFragments [ grpId ] ;
RsNxsGrp * grp = * ( f . begin ( ) ) ;
// if counts of fragments is incorrect remove
// from coalescion
if ( grp - > count ! = f . size ( ) )
{
GrpFragments : : iterator vit2 = f . begin ( ) ;
for ( ; vit2 ! = f . end ( ) ; + + vit2 )
delete * vit2 ;
partFragments . erase ( grpId ) ;
}
}
fragments . clear ( ) ;
}
struct MsgFragCollate
{
RsGxsMessageId mMsgId ;
MsgFragCollate ( const RsGxsMessageId & msgId ) : mMsgId ( msgId ) { }
bool operator ( ) ( RsNxsMsg * msg ) { return msg - > msgId = = mMsgId ; }
} ;
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void RsGxsNetService : : collateMsgFragments ( MsgFragments & fragments , std : : map < RsGxsMessageId , MsgFragments > & partFragments ) const
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{
// get all unique message Ids;
MsgFragments : : iterator vit = fragments . begin ( ) ;
std : : set < RsGxsMessageId > msgIds ;
for ( ; vit ! = fragments . end ( ) ; + + vit )
msgIds . insert ( ( * vit ) - > msgId ) ;
std : : set < RsGxsMessageId > : : iterator sit = msgIds . begin ( ) ;
for ( ; sit ! = msgIds . end ( ) ; + + sit )
{
const RsGxsMessageId & msgId = * sit ;
MsgFragments : : iterator bound = std : : partition (
fragments . begin ( ) , fragments . end ( ) ,
MsgFragCollate ( msgId ) ) ;
// something will always be found for a group id
for ( vit = fragments . begin ( ) ; vit ! = bound ; + + vit )
{
partFragments [ msgId ] . push_back ( * vit ) ;
}
fragments . erase ( fragments . begin ( ) , bound ) ;
MsgFragments & f = partFragments [ msgId ] ;
RsNxsMsg * msg = * ( f . begin ( ) ) ;
// if counts of fragments is incorrect remove
// from coalescion
if ( msg - > count ! = f . size ( ) )
{
MsgFragments : : iterator vit2 = f . begin ( ) ;
for ( ; vit2 ! = f . end ( ) ; + + vit2 )
delete * vit2 ;
partFragments . erase ( msgId ) ;
}
}
fragments . clear ( ) ;
}
class StoreHere
{
public :
StoreHere ( RsGxsNetService : : ClientGrpMap & cgm , RsGxsNetService : : ClientMsgMap & cmm , RsGxsNetService : : ServerMsgMap & smm , RsGxsServerGrpUpdateItem * & sgm )
: mClientGrpMap ( cgm ) , mClientMsgMap ( cmm ) , mServerMsgMap ( smm ) , mServerGrpUpdateItem ( sgm )
{ }
void operator ( ) ( RsItem * item )
{
RsGxsMsgUpdateItem * mui ;
RsGxsGrpUpdateItem * gui ;
RsGxsServerGrpUpdateItem * gsui ;
RsGxsServerMsgUpdateItem * msui ;
if ( ( mui = dynamic_cast < RsGxsMsgUpdateItem * > ( item ) ) ! = NULL )
mClientMsgMap . insert ( std : : make_pair ( mui - > peerId , mui ) ) ;
else if ( ( gui = dynamic_cast < RsGxsGrpUpdateItem * > ( item ) ) ! = NULL )
mClientGrpMap . insert ( std : : make_pair ( gui - > peerId , gui ) ) ;
else if ( ( msui = dynamic_cast < RsGxsServerMsgUpdateItem * > ( item ) ) ! = NULL )
mServerMsgMap . insert ( std : : make_pair ( msui - > grpId , msui ) ) ;
else if ( ( gsui = dynamic_cast < RsGxsServerGrpUpdateItem * > ( item ) ) ! = NULL )
{
if ( mServerGrpUpdateItem = = NULL )
mServerGrpUpdateItem = gsui ;
else
{
std : : cerr < < " Error! More than one server group update item exists! " < < std : : endl ;
delete gsui ;
}
}
else
{
std : : cerr < < " Type not expected! " < < std : : endl ;
delete item ;
}
}
private :
RsGxsNetService : : ClientGrpMap & mClientGrpMap ;
RsGxsNetService : : ClientMsgMap & mClientMsgMap ;
RsGxsNetService : : ServerMsgMap & mServerMsgMap ;
RsGxsServerGrpUpdateItem * & mServerGrpUpdateItem ;
} ;
bool RsGxsNetService : : loadList ( std : : list < RsItem * > & load )
{
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RS_STACK_MUTEX ( mNxsMutex ) ;
// The delete is done in StoreHere, if necessary
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std : : for_each ( load . begin ( ) , load . end ( ) , StoreHere ( mClientGrpUpdateMap , mClientMsgUpdateMap , mServerMsgUpdateMap , mGrpServerUpdateItem ) ) ;
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// We reset group statistics here. This is the best place since we know at this point which are all unsubscribed groups.
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time_t now = time ( NULL ) ;
for ( std : : map < RsGxsGroupId , RsGroupNetworkStatsRecord > : : iterator it ( mGroupNetworkStats . begin ( ) ) ; it ! = mGroupNetworkStats . end ( ) ; + + it )
{
// At each reload, we reset the count of visible messages. It will be rapidely restored to its real value from friends.
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it - > second . max_visible_count = 0 ; // std::max(it2->second.message_count,gnsr.max_visible_count) ;
// the update time stamp is randomised so as not to ask all friends at once about group statistics.
it - > second . update_TS = now - GROUP_STATS_UPDATE_DELAY + ( RSRandom : : random_u32 ( ) % ( GROUP_STATS_UPDATE_DELAY / 10 ) ) ;
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// Similarly, we remove all suppliers.
// Actual suppliers will come back automatically.
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it - > second . suppliers . clear ( ) ;
}
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return true ;
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}
# include <algorithm>
template < typename UpdateMap >
struct get_second : public std : : unary_function < typename UpdateMap : : value_type , RsItem * >
{
RsItem * operator ( ) ( const typename UpdateMap : : value_type & value ) const
{
return value . second ;
}
} ;
bool RsGxsNetService : : saveList ( bool & cleanup , std : : list < RsItem * > & save )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
// hardcore templates
std : : transform ( mClientGrpUpdateMap . begin ( ) , mClientGrpUpdateMap . end ( ) , std : : back_inserter ( save ) , get_second < ClientGrpMap > ( ) ) ;
std : : transform ( mClientMsgUpdateMap . begin ( ) , mClientMsgUpdateMap . end ( ) , std : : back_inserter ( save ) , get_second < ClientMsgMap > ( ) ) ;
std : : transform ( mServerMsgUpdateMap . begin ( ) , mServerMsgUpdateMap . end ( ) , std : : back_inserter ( save ) , get_second < ServerMsgMap > ( ) ) ;
save . push_back ( mGrpServerUpdateItem ) ;
cleanup = false ;
return true ;
}
RsSerialiser * RsGxsNetService : : setupSerialiser ( )
{
RsSerialiser * rss = new RsSerialiser ;
rss - > addSerialType ( new RsGxsUpdateSerialiser ( mServType ) ) ;
return rss ;
}
void RsGxsNetService : : recvNxsItemQueue ( )
{
RsItem * item ;
while ( NULL ! = ( item = recvItem ( ) ) )
{
# ifdef NXS_NET_DEBUG_1
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GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " Received RsGxsNetService Item: " < < ( void * ) item < < " type= " < < std : : hex < < item - > PacketId ( ) < < std : : dec < < std : : endl ;
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# endif
// RsNxsItem needs dynamic_cast, since they have derived siblings.
//
RsNxsItem * ni = dynamic_cast < RsNxsItem * > ( item ) ;
if ( ni ! = NULL )
{
// a live transaction has a non zero value
if ( ni - > transactionNumber ! = 0 )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " recvNxsItemQueue() handlingTransaction, transN " < < ni - > transactionNumber < < std : : endl ;
# endif
if ( ! handleTransaction ( ni ) )
delete ni ;
continue ;
}
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// Check whether the item is encrypted. If so, try to decrypt it, and replace ni with the decrypted item..
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bool item_was_encrypted = false ;
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if ( ni - > PacketSubType ( ) = = RS_PKT_SUBTYPE_NXS_ENCRYPTED_DATA_ITEM )
{
RsNxsItem * decrypted_item ;
uint32_t status ;
if ( decryptSingleNxsItem ( dynamic_cast < RsNxsEncryptedDataItem * > ( ni ) , decrypted_item ) )
{
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item = ni = decrypted_item ;
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item_was_encrypted = true ;
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " decrypted item " < < std : : endl ;
# endif
}
else
std : : cerr < < " (EE) Could not decrypt incoming encrypted NXS item. Probably a friend subscribed to a circle-restricted group. " < < std : : endl ;
}
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switch ( ni - > PacketSubType ( ) )
{
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case RS_PKT_SUBTYPE_NXS_SYNC_GRP_STATS_ITEM : handleRecvSyncGrpStatistics ( dynamic_cast < RsNxsSyncGrpStatsItem * > ( ni ) ) ; break ;
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case RS_PKT_SUBTYPE_NXS_SYNC_GRP_REQ_ITEM : handleRecvSyncGroup ( dynamic_cast < RsNxsSyncGrpReqItem * > ( ni ) ) ; break ;
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case RS_PKT_SUBTYPE_NXS_SYNC_MSG_REQ_ITEM : handleRecvSyncMessage ( dynamic_cast < RsNxsSyncMsgReqItem * > ( ni ) , item_was_encrypted ) ; break ;
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case RS_PKT_SUBTYPE_NXS_GRP_PUBLISH_KEY_ITEM : handleRecvPublishKeys ( dynamic_cast < RsNxsGroupPublishKeyItem * > ( ni ) ) ; break ;
default :
std : : cerr < < " Unhandled item subtype " < < ( uint32_t ) ni - > PacketSubType ( ) < < " in RsGxsNetService: " < < std : : endl ; break ;
}
delete item ;
}
else
{
std : : cerr < < " Not a RsNxsItem, deleting! " < < std : : endl ;
delete ( item ) ;
}
}
}
bool RsGxsNetService : : handleTransaction ( RsNxsItem * item )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " handleTransaction(RsNxsItem) number= " < < item - > transactionNumber < < std : : endl ;
# endif
/*!
* This attempts to handle a transaction
* It first checks if this transaction id already exists
* If it does then check this not a initiating transactions
*/
RS_STACK_MUTEX ( mNxsMutex ) ;
const RsPeerId & peer = item - > PeerId ( ) ;
RsNxsTransacItem * transItem = dynamic_cast < RsNxsTransacItem * > ( item ) ;
// if this is a RsNxsTransac item process
if ( transItem )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " this is a RsNxsTransac item. callign process. " < < std : : endl ;
# endif
return locked_processTransac ( transItem ) ;
}
// then this must be transaction content to be consumed
// first check peer exist for transaction
bool peerTransExists = mTransactions . find ( peer ) ! = mTransactions . end ( ) ;
// then check transaction exists
NxsTransaction * tr = NULL ;
uint32_t transN = item - > transactionNumber ;
if ( peerTransExists )
{
TransactionIdMap & transMap = mTransactions [ peer ] ;
if ( transMap . find ( transN ) ! = transMap . end ( ) )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " Consuming Transaction content, transN: " < < item - > transactionNumber < < std : : endl ;
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " Consuming Transaction content, from Peer: " < < item - > PeerId ( ) < < std : : endl ;
# endif
tr = transMap [ transN ] ;
tr - > mItems . push_back ( item ) ;
return true ;
}
}
return false ;
}
bool RsGxsNetService : : locked_processTransac ( RsNxsTransacItem * item )
{
/*!
* To process the transaction item
* It can either be initiating a transaction
* or ending one that already exists
*
* For initiating an incoming transaction the peer
* and transaction item need not exists
* as the peer will be added and transaction number
* added thereafter
*
* For commencing / starting an outgoing transaction
* the transaction must exist already
*
* For ending a transaction the
*/
RsPeerId peer ;
// for outgoing transaction use own id
if ( item - > transactFlag & ( RsNxsTransacItem : : FLAG_BEGIN_P2 | RsNxsTransacItem : : FLAG_END_SUCCESS ) )
peer = mOwnId ;
else
peer = item - > PeerId ( ) ;
uint32_t transN = item - > transactionNumber ;
item - > timestamp = time ( NULL ) ; // register time received
NxsTransaction * tr = NULL ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peer ) < < " locked_processTransac() " < < std : : endl ;
GXSNETDEBUG_P_ ( peer ) < < " Received transaction item: " < < transN < < std : : endl ;
GXSNETDEBUG_P_ ( peer ) < < " With peer: " < < item - > PeerId ( ) < < std : : endl ;
GXSNETDEBUG_P_ ( peer ) < < " trans type: " < < item - > transactFlag < < std : : endl ;
# endif
bool peerTrExists = mTransactions . find ( peer ) ! = mTransactions . end ( ) ;
bool transExists = false ;
if ( peerTrExists )
{
TransactionIdMap & transMap = mTransactions [ peer ] ;
// record whether transaction exists already
transExists = transMap . find ( transN ) ! = transMap . end ( ) ;
}
// initiating an incoming transaction
if ( item - > transactFlag & RsNxsTransacItem : : FLAG_BEGIN_P1 )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peer ) < < " initiating Incoming transaction. " < < std : : endl ;
# endif
if ( transExists )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peer ) < < " transaction already exist! ERROR " < < std : : endl ;
# endif
return false ; // should not happen!
}
// create a transaction if the peer does not exist
if ( ! peerTrExists )
mTransactions [ peer ] = TransactionIdMap ( ) ;
TransactionIdMap & transMap = mTransactions [ peer ] ;
// create new transaction
tr = new NxsTransaction ( ) ;
transMap [ transN ] = tr ;
tr - > mTransaction = item ;
tr - > mTimeOut = item - > timestamp + mTransactionTimeOut ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peer ) < < " Setting timeout of " < < mTransactionTimeOut < < " secs, which is " < < tr - > mTimeOut - time ( NULL ) < < " secs from now. " < < std : : endl ;
# endif
// note state as receiving, commencement item
// is sent on next run() loop
tr - > mFlag = NxsTransaction : : FLAG_STATE_STARTING ;
return true ;
// commencement item for outgoing transaction
}
else if ( item - > transactFlag & RsNxsTransacItem : : FLAG_BEGIN_P2 )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peer ) < < " initiating outgoign transaction. " < < std : : endl ;
# endif
// transaction must exist
if ( ! peerTrExists | | ! transExists )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peer ) < < " transaction does not exist. Cancelling! " < < std : : endl ;
# endif
return false ;
}
// alter state so transaction content is sent on
// next run() loop
TransactionIdMap & transMap = mTransactions [ mOwnId ] ;
NxsTransaction * tr = transMap [ transN ] ;
tr - > mFlag = NxsTransaction : : FLAG_STATE_SENDING ;
delete item ;
return true ;
// end transac item for outgoing transaction
}
else if ( item - > transactFlag & RsNxsTransacItem : : FLAG_END_SUCCESS )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peer ) < < " marking this transaction succeed " < < std : : endl ;
# endif
// transaction does not exist
if ( ! peerTrExists | | ! transExists )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peer ) < < " transaction does not exist. Cancelling! " < < std : : endl ;
# endif
return false ;
}
// alter state so that transaction is removed
// on next run() loop
TransactionIdMap & transMap = mTransactions [ mOwnId ] ;
NxsTransaction * tr = transMap [ transN ] ;
tr - > mFlag = NxsTransaction : : FLAG_STATE_COMPLETED ;
delete item ;
return true ;
}
else
return false ;
}
void RsGxsNetService : : data_tick ( )
{
static const double timeDelta = 0.5 ;
//Start waiting as nothing to do in runup
usleep ( ( int ) ( timeDelta * 1000 * 1000 ) ) ; // timeDelta sec
if ( mUpdateCounter > = 120 ) // 60 seconds
{
updateServerSyncTS ( ) ;
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# ifdef TO_REMOVE
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updateClientSyncTS ( ) ;
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# endif
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mUpdateCounter = 1 ;
}
else
mUpdateCounter + + ;
if ( mUpdateCounter % 20 = = 0 ) // dump the full shit every 20 secs
debugDump ( ) ;
// process active transactions
processTransactions ( ) ;
// process completed transactions
processCompletedTransactions ( ) ;
// vetting of id and circle info
runVetting ( ) ;
processExplicitGroupRequests ( ) ;
}
void RsGxsNetService : : debugDump ( )
{
# ifdef NXS_NET_DEBUG_0
RS_STACK_MUTEX ( mNxsMutex ) ;
time_t now = time ( NULL ) ;
GXSNETDEBUG___ < < " RsGxsNetService::debugDump(): " < < std : : endl ;
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RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > grpMetas ;
if ( ! group_id_to_print . isNull ( ) )
grpMetas [ group_id_to_print ] = NULL ;
mDataStore - > retrieveGxsGrpMetaData ( grpMetas ) ;
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if ( mGrpServerUpdateItem ! = NULL )
GXSNETDEBUG___ < < " mGrpServerUpdateItem time stamp: " < < nice_time_stamp ( time ( NULL ) , mGrpServerUpdateItem - > grpUpdateTS ) < < " (is the last local modification time over all groups of this service) " < < std : : endl ;
else
GXSNETDEBUG___ < < " mGrpServerUpdateItem time stamp: not inited yet (is the last local modification time over all groups of this service) " < < std : : endl ;
GXSNETDEBUG___ < < " mServerMsgUpdateMap: (is for each subscribed group, the last local modification time) " < < std : : endl ;
for ( std : : map < RsGxsGroupId , RsGxsServerMsgUpdateItem * > : : const_iterator it ( mServerMsgUpdateMap . begin ( ) ) ; it ! = mServerMsgUpdateMap . end ( ) ; + + it )
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{
RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > : : const_iterator it2 = grpMetas . find ( it - > first ) ;
RsGxsGrpMetaData * grpMeta = ( it2 ! = grpMetas . end ( ) ) ? it2 - > second : NULL ;
std : : string subscribe_string = ( grpMeta = = NULL ) ? " Unknown " : ( ( grpMeta - > mSubscribeFlags & GXS_SERV : : GROUP_SUBSCRIBE_SUBSCRIBED ) ? " Subscribed " : " NOT Subscribed " ) ;
GXSNETDEBUG__G ( it - > first ) < < " Grp: " < < it - > first < < " last local modification (secs ago): " < < nice_time_stamp ( time ( NULL ) , it - > second - > msgUpdateTS ) < < " , " < < subscribe_string < < std : : endl ;
}
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GXSNETDEBUG___ < < " mClientGrpUpdateMap: (is for each friend, last modif time of group meta data at that friend, all groups included, sent by the friend himself) " < < std : : endl ;
for ( std : : map < RsPeerId , RsGxsGrpUpdateItem * > : : const_iterator it ( mClientGrpUpdateMap . begin ( ) ) ; it ! = mClientGrpUpdateMap . end ( ) ; + + it )
GXSNETDEBUG_P_ ( it - > first ) < < " From peer: " < < it - > first < < " - last updated at peer (secs ago): " < < nice_time_stamp ( time ( NULL ) , it - > second - > grpUpdateTS ) < < std : : endl ;
GXSNETDEBUG___ < < " mClientMsgUpdateMap: (is for each friend, the modif time for each group (e.g. last message received), sent by the friend himself) " < < std : : endl ;
for ( std : : map < RsPeerId , RsGxsMsgUpdateItem * > : : const_iterator it ( mClientMsgUpdateMap . begin ( ) ) ; it ! = mClientMsgUpdateMap . end ( ) ; + + it )
{
GXSNETDEBUG_P_ ( it - > first ) < < " From peer: " < < it - > first < < std : : endl ;
for ( std : : map < RsGxsGroupId , RsGxsMsgUpdateItem : : MsgUpdateInfo > : : const_iterator it2 ( it - > second - > msgUpdateInfos . begin ( ) ) ; it2 ! = it - > second - > msgUpdateInfos . end ( ) ; + + it2 )
GXSNETDEBUG_PG ( it - > first , it2 - > first ) < < " group " < < it2 - > first < < " - last updated at peer (secs ago): " < < nice_time_stamp ( time ( NULL ) , it2 - > second . time_stamp ) < < " . Message count= " < < it2 - > second . message_count < < std : : endl ;
}
GXSNETDEBUG___ < < " List of rejected message ids: " < < mRejectedMessages . size ( ) < < std : : endl ;
# endif
}
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# ifdef TO_REMOVE
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// This method is normally not needed, but we use it to correct possible inconsistencies in the updte time stamps
// on the client side.
void RsGxsNetService : : updateClientSyncTS ( )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ < < " updateClientSyncTS(): checking last modification time stamps of local data w.r.t. client's modification times " < < std : : endl ;
# endif
if ( mGrpServerUpdateItem = = NULL )
mGrpServerUpdateItem = new RsGxsServerGrpUpdateItem ( mServType ) ;
for ( ClientGrpMap : : iterator it = mClientGrpUpdateMap . begin ( ) ; it ! = mClientGrpUpdateMap . end ( ) ; + + it )
if ( it - > second - > grpUpdateTS > SECURITY_DELAY_TO_FORCE_CLIENT_REUPDATE + mGrpServerUpdateItem - > grpUpdateTS )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( it - > first ) < < " last global client GRP modification time known for peer ( " < < nice_time_stamp ( time ( NULL ) , it - > second - > grpUpdateTS ) < < " is quite more recent than our own server modification time ( " < < nice_time_stamp ( time ( NULL ) , mGrpServerUpdateItem - > grpUpdateTS ) < < " . Forcing update! " < < std : : endl ;
# endif
it - > second - > grpUpdateTS = 0 ;
}
for ( ClientMsgMap : : iterator it = mClientMsgUpdateMap . begin ( ) ; it ! = mClientMsgUpdateMap . end ( ) ; + + it )
for ( std : : map < RsGxsGroupId , RsGxsMsgUpdateItem : : MsgUpdateInfo > : : iterator it2 = it - > second - > msgUpdateInfos . begin ( ) ; it2 ! = it - > second - > msgUpdateInfos . end ( ) ; + + it2 )
{
std : : map < RsGxsGroupId , RsGxsServerMsgUpdateItem * > : : const_iterator mmit = mServerMsgUpdateMap . find ( it2 - > first ) ;
if ( mmit ! = mServerMsgUpdateMap . end ( ) & & it2 - > second . time_stamp > SECURITY_DELAY_TO_FORCE_CLIENT_REUPDATE + mmit - > second - > msgUpdateTS )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( it - > first , it2 - > first ) < < " last group msg modification time known for peer ( " < < nice_time_stamp ( time ( NULL ) , it2 - > second . time_stamp ) < < " and group " < < it2 - > first < < " is quite more recent than our own server modification time ( " < < nice_time_stamp ( time ( NULL ) , mmit - > second - > msgUpdateTS ) < < " . Forcing update! " < < std : : endl ;
# endif
it2 - > second . time_stamp = 0 ;
}
}
}
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# endif
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void RsGxsNetService : : updateServerSyncTS ( )
{
RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > gxsMap ;
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG___ < < " updateServerSyncTS(): updating last modification time stamp of local data. " < < std : : endl ;
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# endif
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{
RS_STACK_MUTEX ( mNxsMutex ) ;
// retrieve all grps and update TS
mDataStore - > retrieveGxsGrpMetaData ( gxsMap ) ;
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// (cyril) This code was previously removed because it sounded inconsistent: the list of grps normally does not need to be updated when
// new posts arrive. The two (grp list and msg list) are handled independently. Still, when group meta data updates are received,
// the server TS needs to be updated, because it is the only way to propagate the changes. So we update it to the publish time stamp,
// if needed.
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// as a grp list server also note this is the latest item you have
if ( mGrpServerUpdateItem = = NULL )
mGrpServerUpdateItem = new RsGxsServerGrpUpdateItem ( mServType ) ;
// then remove from mServerMsgUpdateMap, all items that are not in the group list!
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG___ < < " cleaning server map of groups with no data: " < < std : : endl ;
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# endif
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for ( std : : map < RsGxsGroupId , RsGxsServerMsgUpdateItem * > : : iterator it ( mServerMsgUpdateMap . begin ( ) ) ; it ! = mServerMsgUpdateMap . end ( ) ; )
if ( gxsMap . find ( it - > first ) = = gxsMap . end ( ) )
{
// not found! Removing server update info for this group
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG__G ( it - > first ) < < " removing server update info for group " < < it - > first < < std : : endl ;
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# endif
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std : : map < RsGxsGroupId , RsGxsServerMsgUpdateItem * > : : iterator tmp ( it ) ;
+ + tmp ;
mServerMsgUpdateMap . erase ( it ) ;
it = tmp ;
}
else
+ + it ;
}
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# ifdef NXS_NET_DEBUG_0
if ( gxsMap . empty ( ) )
GXSNETDEBUG___ < < " database seems to be empty. The modification timestamp will be reset. " < < std : : endl ;
# endif
// finally, update timestamps.
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bool change = false ;
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for ( std : : map < RsGxsGroupId , RsGxsGrpMetaData * > : : const_iterator mit = gxsMap . begin ( ) ; mit ! = gxsMap . end ( ) ; + + mit )
{
const RsGxsGroupId & grpId = mit - > first ;
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// Check if the group is subscribed and restricted to a circle. If the circle has changed, update the
// global TS to reflect that change to clients who may be able to see/subscribe to that particular group.
if ( ( mit - > second - > mSubscribeFlags & GXS_SERV : : GROUP_SUBSCRIBE_SUBSCRIBED ) & & ! mit - > second - > mCircleId . isNull ( ) )
{
// ask to the GxsNetService of circles what the server TS is for that circle. If more recent, we update the serverTS of the
// local group
time_t circle_group_server_ts ;
time_t circle_msg_server_ts ;
// This call needs to be off-mutex, because of self-restricted circles.
if ( mCircles - > getLocalCircleServerUpdateTS ( mit - > second - > mCircleId , circle_group_server_ts , circle_msg_server_ts ) )
{
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# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G ( mit - > first ) < < " Group " < < mit - > first < < " is conditionned to circle " < < mit - > second - > mCircleId < < " . local Grp TS= " < < time ( NULL ) - mGrpServerUpdateItem - > grpUpdateTS < < " secs ago, circle grp server update TS= " < < time ( NULL ) - circle_group_server_ts < < " secs ago " ;
# endif
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if ( circle_group_server_ts > mGrpServerUpdateItem - > grpUpdateTS )
{
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# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G ( mit - > first ) < < " - Updating local Grp Server update TS to follow changes in circles. " < < std : : endl ;
# endif
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RS_STACK_MUTEX ( mNxsMutex ) ;
mGrpServerUpdateItem - > grpUpdateTS = circle_group_server_ts ;
}
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# ifdef NXS_NET_DEBUG_0
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else
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GXSNETDEBUG__G ( mit - > first ) < < " - Nothing to do. " < < std : : endl ;
# endif
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}
else
std : : cerr < < " (EE) Cannot retrieve attached circle TS " < < std : : endl ;
}
RS_STACK_MUTEX ( mNxsMutex ) ;
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const RsGxsGrpMetaData * grpMeta = mit - > second ;
RsGxsServerMsgUpdateItem * msui = NULL ;
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# ifdef TO_REMOVE
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// That accounts for modification of the meta data.
if ( mGrpServerUpdateItem - > grpUpdateTS < grpMeta - > mPublishTs )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G ( grpId ) < < " publish time stamp of group " < < grpId < < " has changed to " < < time ( NULL ) - grpMeta - > mPublishTs < < " secs ago. updating! " < < std : : endl ;
# endif
mGrpServerUpdateItem - > grpUpdateTS = grpMeta - > mPublishTs ;
}
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# endif
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ServerMsgMap : : iterator mapIT = mServerMsgUpdateMap . find ( grpId ) ;
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if ( mapIT = = mServerMsgUpdateMap . end ( ) )
{
msui = new RsGxsServerMsgUpdateItem ( mServType ) ;
msui - > grpId = grpMeta - > mGroupId ;
mServerMsgUpdateMap . insert ( std : : make_pair ( msui - > grpId , msui ) ) ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G ( grpId ) < < " created new entry for group " < < grpId < < std : : endl ;
# endif
}
else
msui = mapIT - > second ;
if ( grpMeta - > mLastPost > msui - > msgUpdateTS )
{
change = true ;
msui - > msgUpdateTS = grpMeta - > mLastPost ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G ( grpId ) < < " updated msgUpdateTS to last post = " < < time ( NULL ) - grpMeta - > mLastPost < < " secs ago for group " < < grpId < < std : : endl ;
# endif
}
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// This is needed for group metadata updates to actually propagate: only a new grpUpdateTS will trigger the exchange of groups mPublishTs which
// will then be compared and pssibly trigger a MetaData transmission. mRecvTS is upated when creating, receiving for the first time, or receiving
// an update, all in rsgenexchange.cc, after group/update validation. It is therefore a local TS, that can be compared to grpUpdateTS (same machine).
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if ( mGrpServerUpdateItem - > grpUpdateTS < grpMeta - > mRecvTS )
{
# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG__G ( grpId ) < < " updated msgUpdateTS to last RecvTS = " < < time ( NULL ) - grpMeta - > mRecvTS < < " secs ago for group " < < grpId < < " . This is probably because an update has been received. " < < std : : endl ;
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# endif
mGrpServerUpdateItem - > grpUpdateTS = grpMeta - > mRecvTS ;
change = true ;
}
}
// actual change in config settings, then save configuration
if ( change )
IndicateConfigChanged ( ) ;
}
bool RsGxsNetService : : locked_checkTransacTimedOut ( NxsTransaction * tr )
{
return tr - > mTimeOut < ( ( uint32_t ) time ( NULL ) ) ;
}
void RsGxsNetService : : processTransactions ( )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
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for ( TransactionsPeerMap : : iterator mit = mTransactions . begin ( ) ; mit ! = mTransactions . end ( ) ; + + mit )
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{
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# ifdef NXS_NET_DEBUG_1
if ( ! mit - > second . empty ( ) )
GXSNETDEBUG_P_ ( mit - > first ) < < " processTransactions from/to peer " < < mit - > first < < std : : endl ;
# endif
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TransactionIdMap & transMap = mit - > second ;
TransactionIdMap : : iterator mmit = transMap . begin ( ) , mmit_end = transMap . end ( ) ;
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if ( mmit = = mmit_end ) // no waiting transactions for this peer
continue ;
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# ifdef NXS_NET_DEBUG_1
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GXSNETDEBUG_P_ ( mit - > first ) < < " peerId= " < < mit - > first < < std : : endl ;
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# endif
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// transaction to be removed
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std : : list < uint32_t > toRemove ;
/*!
* Transactions owned by peer
*/
if ( mit - > first = = mOwnId )
{
for ( ; mmit ! = mmit_end ; + + mmit )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " type: outgoing " < < std : : endl ;
GXSNETDEBUG_P_ ( mit - > first ) < < " transN = " < < mmit - > second - > mTransaction - > transactionNumber < < std : : endl ;
# endif
NxsTransaction * tr = mmit - > second ;
uint16_t flag = tr - > mFlag ;
std : : list < RsNxsItem * > : : iterator lit , lit_end ;
uint32_t transN = tr - > mTransaction - > transactionNumber ;
// first check transaction has not expired
if ( locked_checkTransacTimedOut ( tr ) )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " timeout! " < < std : : endl ;
GXSNETDEBUG_P_ ( mit - > first ) < < std : : dec ;
int total_transaction_time = ( int ) time ( NULL ) - ( tr - > mTimeOut - mTransactionTimeOut ) ;
GXSNETDEBUG_P_ ( mit - > first ) < < " Outgoing Transaction has failed, tranN: " < < transN < < " , Peer: " < < mit - > first ;
GXSNETDEBUG_P_ ( mit - > first ) < < " , age: " < < total_transaction_time < < " , nItems= " < < tr - > mTransaction - > nItems < < " . tr->mTimeOut = " < < tr - > mTimeOut < < " , now = " < < ( uint32_t ) time ( NULL ) < < std : : endl ;
# endif
tr - > mFlag = NxsTransaction : : FLAG_STATE_FAILED ;
toRemove . push_back ( transN ) ;
mComplTransactions . push_back ( tr ) ;
continue ;
}
# ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_P_ ( mit - > first ) < < " still on time. " < < std : : endl ;
# endif
// send items requested
if ( flag & NxsTransaction : : FLAG_STATE_SENDING )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " Sending Transaction content, transN: " < < transN < < " with peer: " < < tr - > mTransaction - > PeerId ( ) < < std : : endl ;
# endif
lit = tr - > mItems . begin ( ) ;
lit_end = tr - > mItems . end ( ) ;
for ( ; lit ! = lit_end ; + + lit ) {
sendItem ( * lit ) ;
}
tr - > mItems . clear ( ) ; // clear so they don't get deleted in trans cleaning
tr - > mFlag = NxsTransaction : : FLAG_STATE_WAITING_CONFIRM ;
}
else if ( flag & NxsTransaction : : FLAG_STATE_WAITING_CONFIRM )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " Waiting confirm! returning. " < < std : : endl ;
# endif
continue ;
}
else if ( flag & NxsTransaction : : FLAG_STATE_COMPLETED )
{
# ifdef NXS_NET_DEBUG_1
int total_transaction_time = ( int ) time ( NULL ) - ( tr - > mTimeOut - mTransactionTimeOut ) ;
GXSNETDEBUG_P_ ( mit - > first ) < < " Outgoing completed " < < tr - > mTransaction - > nItems < < " items transaction in " < < total_transaction_time < < " seconds. " < < std : : endl ;
# endif
// move to completed transactions
toRemove . push_back ( transN ) ;
mComplTransactions . push_back ( tr ) ;
} else {
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " Unknown flag for active transaction, transN: " < < transN < < " , Peer: " < < mit - > first < < std : : endl ;
# endif
toRemove . push_back ( transN ) ;
tr - > mFlag = NxsTransaction : : FLAG_STATE_FAILED ;
mComplTransactions . push_back ( tr ) ;
}
}
} else {
/*!
* Essentially these are incoming transactions
* Several states are dealth with
* Receiving : waiting to receive items from peer ' s transaction
* and checking if all have been received
* Completed : remove transaction from active and tell peer
* involved in transaction
* Starting : this is a new transaction and need to teell peer
* involved in transaction
*/
for ( ; mmit ! = mmit_end ; + + mmit ) {
NxsTransaction * tr = mmit - > second ;
uint16_t flag = tr - > mFlag ;
uint32_t transN = tr - > mTransaction - > transactionNumber ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " type: incoming " < < std : : endl ;
GXSNETDEBUG_P_ ( mit - > first ) < < " transN = " < < mmit - > second - > mTransaction - > transactionNumber < < std : : endl ;
# endif
// first check transaction has not expired
if ( locked_checkTransacTimedOut ( tr ) )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " timeout! " < < std : : endl ;
GXSNETDEBUG_P_ ( mit - > first ) < < std : : dec ;
int total_transaction_time = ( int ) time ( NULL ) - ( tr - > mTimeOut - mTransactionTimeOut ) ;
GXSNETDEBUG_P_ ( mit - > first ) < < " Incoming Transaction has failed, tranN: " < < transN < < " , Peer: " < < mit - > first ;
GXSNETDEBUG_P_ ( mit - > first ) < < " , age: " < < total_transaction_time < < " , nItems= " < < tr - > mTransaction - > nItems < < " . tr->mTimeOut = " < < tr - > mTimeOut < < " , now = " < < ( uint32_t ) time ( NULL ) < < std : : endl ;
# endif
tr - > mFlag = NxsTransaction : : FLAG_STATE_FAILED ;
toRemove . push_back ( transN ) ;
mComplTransactions . push_back ( tr ) ;
continue ;
}
if ( flag & NxsTransaction : : FLAG_STATE_RECEIVING )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " received " < < tr - > mItems . size ( ) < < " item over a total of " < < tr - > mTransaction - > nItems < < std : : endl ;
# endif
// if the number it item received equal that indicated
// then transaction is marked as completed
// to be moved to complete transations
// check if done
if ( tr - > mItems . size ( ) = = tr - > mTransaction - > nItems )
{
tr - > mFlag = NxsTransaction : : FLAG_STATE_COMPLETED ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " completed! " < < std : : endl ;
# endif
}
} else if ( flag & NxsTransaction : : FLAG_STATE_COMPLETED )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " transaction is completed! " < < std : : endl ;
GXSNETDEBUG_P_ ( mit - > first ) < < " sending success! " < < std : : endl ;
# endif
// send completion msg
RsNxsTransacItem * trans = new RsNxsTransacItem ( mServType ) ;
trans - > clear ( ) ;
trans - > transactFlag = RsNxsTransacItem : : FLAG_END_SUCCESS ;
trans - > transactionNumber = transN ;
trans - > PeerId ( tr - > mTransaction - > PeerId ( ) ) ;
sendItem ( trans ) ;
// move to completed transactions
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// Try to decrypt the items that need to be decrypted. This function returns true if the transaction is not encrypted.
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if ( processTransactionForDecryption ( tr ) )
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{
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " successfully decrypted/processed transaction " < < transN < < " . Adding to completed list. " < < std : : endl ;
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# endif
mComplTransactions . push_back ( tr ) ;
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// transaction processing done
// for this id, add to removal list
toRemove . push_back ( mmit - > first ) ;
# ifdef NXS_NET_DEBUG_1
int total_transaction_time = ( int ) time ( NULL ) - ( tr - > mTimeOut - mTransactionTimeOut ) ;
GXSNETDEBUG_P_ ( mit - > first ) < < " incoming completed " < < tr - > mTransaction - > nItems < < " items transaction in " < < total_transaction_time < < " seconds. " < < std : : endl ;
# endif
}
else
{
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " no decryption occurred because of unloaded keys. Will retry later. TransN= " < < transN < < std : : endl ;
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# endif
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}
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}
else if ( flag & NxsTransaction : : FLAG_STATE_STARTING )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " transaction is starting! " < < std : : endl ;
GXSNETDEBUG_P_ ( mit - > first ) < < " setting state to Receiving " < < std : : endl ;
# endif
// send item to tell peer your are ready to start
RsNxsTransacItem * trans = new RsNxsTransacItem ( mServType ) ;
trans - > clear ( ) ;
trans - > transactFlag = RsNxsTransacItem : : FLAG_BEGIN_P2 |
( tr - > mTransaction - > transactFlag & RsNxsTransacItem : : FLAG_TYPE_MASK ) ;
trans - > transactionNumber = transN ;
trans - > PeerId ( tr - > mTransaction - > PeerId ( ) ) ;
sendItem ( trans ) ;
tr - > mFlag = NxsTransaction : : FLAG_STATE_RECEIVING ;
}
else {
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( mit - > first ) < < " transaction is in unknown state. ERROR! " < < std : : endl ;
GXSNETDEBUG_P_ ( mit - > first ) < < " transaction FAILS! " < < std : : endl ;
# endif
std : : cerr < < " Unknown flag for active transaction, transN: " < < transN < < " , Peer: " < < mit - > first < < std : : endl ;
toRemove . push_back ( mmit - > first ) ;
mComplTransactions . push_back ( tr ) ;
tr - > mFlag = NxsTransaction : : FLAG_STATE_FAILED ; // flag as a failed transaction
}
}
}
std : : list < uint32_t > : : iterator lit = toRemove . begin ( ) ;
for ( ; lit ! = toRemove . end ( ) ; + + lit )
{
transMap . erase ( * lit ) ;
}
}
}
bool RsGxsNetService : : getGroupNetworkStats ( const RsGxsGroupId & gid , RsGroupNetworkStats & stats )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
std : : map < RsGxsGroupId , RsGroupNetworkStatsRecord > : : const_iterator it = mGroupNetworkStats . find ( gid ) ;
if ( it = = mGroupNetworkStats . end ( ) )
return false ;
stats . mSuppliers = it - > second . suppliers . size ( ) ;
stats . mMaxVisibleCount = it - > second . max_visible_count ;
return true ;
}
void RsGxsNetService : : processCompletedTransactions ( )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
/*!
* Depending on transaction we may have to respond to peer
* responsible for transaction
*/
while ( mComplTransactions . size ( ) > 0 )
{
NxsTransaction * tr = mComplTransactions . front ( ) ;
bool outgoing = tr - > mTransaction - > PeerId ( ) = = mOwnId ;
if ( outgoing ) {
locked_processCompletedOutgoingTrans ( tr ) ;
} else {
locked_processCompletedIncomingTrans ( tr ) ;
}
delete tr ;
mComplTransactions . pop_front ( ) ;
}
}
void RsGxsNetService : : locked_processCompletedIncomingTrans ( NxsTransaction * tr )
{
uint16_t flag = tr - > mTransaction - > transactFlag ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " Processing complete Incoming transaction with " < < tr - > mTransaction - > nItems < < " items. " < < std : : endl ;
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " flags = " < < flag < < std : : endl ;
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " peerId= " < < tr - > mTransaction - > PeerId ( ) < < std : : endl ;
# endif
if ( tr - > mFlag & NxsTransaction : : FLAG_STATE_COMPLETED )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " transaction has completed. " < < std : : endl ;
# endif
// for a completed list response transaction
// one needs generate requests from this
if ( flag & RsNxsTransacItem : : FLAG_TYPE_MSG_LIST_RESP )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " type = msg list response. " < < std : : endl ;
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " => generate msg request based on it. " < < std : : endl ;
# endif
// generate request based on a peers response
locked_genReqMsgTransaction ( tr ) ;
} else if ( flag & RsNxsTransacItem : : FLAG_TYPE_GRP_LIST_RESP )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " type = grp list response. " < < std : : endl ;
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " => generate group transaction request based on it. " < < std : : endl ;
# endif
locked_genReqGrpTransaction ( tr ) ;
}
// you've finished receiving request information now gen
else if ( flag & RsNxsTransacItem : : FLAG_TYPE_MSG_LIST_REQ )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " type = msg list request. " < < std : : endl ;
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " => generate msg list based on it. " < < std : : endl ;
# endif
locked_genSendMsgsTransaction ( tr ) ;
}
else if ( flag & RsNxsTransacItem : : FLAG_TYPE_GRP_LIST_REQ )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " type = grp list request. " < < std : : endl ;
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " => generate grp list based on it. " < < std : : endl ;
# endif
locked_genSendGrpsTransaction ( tr ) ;
}
else if ( flag & RsNxsTransacItem : : FLAG_TYPE_GRPS )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " type = groups. " < < std : : endl ;
# endif
std : : vector < RsNxsGrp * > grps ;
while ( tr - > mItems . size ( ) ! = 0 )
{
RsNxsGrp * grp = dynamic_cast < RsNxsGrp * > ( tr - > mItems . front ( ) ) ;
if ( grp )
{
tr - > mItems . pop_front ( ) ;
grps . push_back ( grp ) ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grp - > grpId ) < < " adding new group " < < grp - > grpId < < " to incoming list! " < < std : : endl ;
# endif
}
else
std : : cerr < < " /! \\ item did not caste to grp " < < std : : endl ;
}
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " ...and notifying observer " < < std : : endl ;
# endif
# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " - Received new groups meta data from peer " < < tr - > mTransaction - > PeerId ( ) < < std : : endl ;
for ( uint32_t i = 0 ; i < grps . size ( ) ; + + i )
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grps [ i ] - > grpId ) ;
# endif
// notify listener of grps
for ( uint32_t i = 0 ; i < grps . size ( ) ; + + i )
mNewGroupsToNotify . push_back ( grps [ i ] ) ;
// now note this as the latest you've received from this peer
RsPeerId peerFrom = tr - > mTransaction - > PeerId ( ) ;
uint32_t updateTS = tr - > mTransaction - > updateTS ;
ClientGrpMap : : iterator it = mClientGrpUpdateMap . find ( peerFrom ) ;
RsGxsGrpUpdateItem * item = NULL ;
if ( it ! = mClientGrpUpdateMap . end ( ) )
{
item = it - > second ;
} else
{
item = new RsGxsGrpUpdateItem ( mServType ) ;
mClientGrpUpdateMap . insert ( std : : make_pair ( peerFrom , item ) ) ;
}
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " and updating mClientGrpUpdateMap for peer " < < peerFrom < < " of new time stamp " < < nice_time_stamp ( time ( NULL ) , updateTS ) < < std : : endl ;
# endif
item - > grpUpdateTS = updateTS ;
item - > peerId = peerFrom ;
IndicateConfigChanged ( ) ;
}
else if ( flag & RsNxsTransacItem : : FLAG_TYPE_MSGS )
{
std : : vector < RsNxsMsg * > msgs ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " type = msgs. " < < std : : endl ;
# endif
RsGxsGroupId grpId ;
while ( tr - > mItems . size ( ) > 0 )
{
RsNxsMsg * msg = dynamic_cast < RsNxsMsg * > ( tr - > mItems . front ( ) ) ;
if ( msg )
{
if ( grpId . isNull ( ) )
grpId = msg - > grpId ;
tr - > mItems . pop_front ( ) ;
msgs . push_back ( msg ) ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , msg - > grpId ) < < " pushing grpId= " < < msg - > grpId < < " , msgsId= " < < msg - > msgId < < " to list of incoming messages " < < std : : endl ;
# endif
}
else
std : : cerr < < " RsGxsNetService::processCompletedTransactions(): item did not caste to msg " < < std : : endl ;
}
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//#warning We need here to queue all incoming items into a list where the vetting will be checked
//#warning in order to avoid someone without the proper rights to post in a group protected with an external circle
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# ifdef NXS_FRAG
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// (cyril) This code does not work. Since we do not really need message fragmenting, I won't fix it.
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std : : map < RsGxsMessageId , MsgFragments > collatedMsgs ;
collateMsgFragments ( msgs , collatedMsgs ) ; // this destroys msgs whatsoever and recovers memory when needed
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msgs . clear ( ) ;
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std : : map < RsGxsMessageId , MsgFragments > : : iterator mit = collatedMsgs . begin ( ) ;
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for ( ; mit ! = collatedMsgs . end ( ) ; + + mit )
{
MsgFragments & f = mit - > second ;
RsNxsMsg * msg = deFragmentMsg ( f ) ;
if ( msg )
msgs . push_back ( msg ) ;
}
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collatedMsgs . clear ( ) ;
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# endif
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grpId ) < < " ...and notifying observer of " < < msgs . size ( ) < < " new messages. " < < std : : endl ;
# endif
# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grpId ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " - Received new messages from peer " < < tr - > mTransaction - > PeerId ( ) < < " for group " < < grpId < < std : : endl ;
for ( uint32_t i = 0 ; i < msgs . size ( ) ; + + i )
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grpId ) < < " " < < msgs [ i ] - > msgId < < std : : endl ;
# endif
// notify listener of msgs
for ( uint32_t i = 0 ; i < msgs . size ( ) ; + + i )
mNewMessagesToNotify . push_back ( msgs [ i ] ) ;
// now note that this is the latest you've received from this peer
// for the grp id
locked_doMsgUpdateWork ( tr - > mTransaction , grpId ) ;
}
}
else if ( tr - > mFlag = = NxsTransaction : : FLAG_STATE_FAILED )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " transaction has failed. Wasting it. " < < std : : endl ;
# endif
// don't do anything transaction will simply be cleaned
}
return ;
}
void RsGxsNetService : : locked_doMsgUpdateWork ( const RsNxsTransacItem * nxsTrans , const RsGxsGroupId & grpId )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( nxsTrans - > PeerId ( ) , grpId ) < < " updating MsgUpdate time stamps for peerId= " < < nxsTrans - > PeerId ( ) < < " , grpId= " < < grpId < < std : : endl ;
# endif
// firts check if peer exists
const RsPeerId & peerFrom = nxsTrans - > PeerId ( ) ;
ClientMsgMap : : iterator it = mClientMsgUpdateMap . find ( peerFrom ) ;
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if ( peerFrom . isNull ( ) )
{
std : : cerr < < " (EE) update from null peer! " < < std : : endl ;
print_stacktrace ( ) ;
}
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RsGxsMsgUpdateItem * mui = NULL ;
// now update the peer's entry for this grp id
if ( it ! = mClientMsgUpdateMap . end ( ) )
{
mui = it - > second ;
}
else
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( nxsTrans - > PeerId ( ) , grpId ) < < " created new entry. " < < std : : endl ;
# endif
mui = new RsGxsMsgUpdateItem ( mServType ) ;
mClientMsgUpdateMap . insert ( std : : make_pair ( peerFrom , mui ) ) ;
}
mui - > peerId = peerFrom ;
if ( mPartialMsgUpdates [ peerFrom ] . find ( grpId ) ! = mPartialMsgUpdates [ peerFrom ] . end ( ) )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( nxsTrans - > PeerId ( ) , grpId ) < < " this is a partial update. Not using new time stamp. " < < std : : endl ;
# endif
}
else
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( nxsTrans - > PeerId ( ) , grpId ) < < " this is a full update. Updating time stamp. " < < std : : endl ;
# endif
mui - > msgUpdateInfos [ grpId ] . time_stamp = nxsTrans - > updateTS ;
IndicateConfigChanged ( ) ;
}
}
void RsGxsNetService : : locked_processCompletedOutgoingTrans ( NxsTransaction * tr )
{
uint16_t flag = tr - > mTransaction - > transactFlag ;
# ifdef NXS_NET_DEBUG_0
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RsNxsTransacItem * nxsTrans = tr - > mTransaction ;
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GXSNETDEBUG_P_ ( nxsTrans - > PeerId ( ) ) < < " locked_processCompletedOutgoingTrans(): tr->flags = " < < flag < < std : : endl ;
# endif
if ( tr - > mFlag & NxsTransaction : : FLAG_STATE_COMPLETED )
{
// for a completed list response transaction
// one needs generate requests from this
if ( flag & RsNxsTransacItem : : FLAG_TYPE_MSG_LIST_RESP )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( nxsTrans - > PeerId ( ) ) < < " complete Sending Msg List Response, transN: " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
# endif
} else if ( flag & RsNxsTransacItem : : FLAG_TYPE_GRP_LIST_RESP )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( nxsTrans - > PeerId ( ) ) < < " complete Sending Grp Response, transN: " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
# endif
}
// you've finished sending a request so don't do anything
else if ( ( flag & RsNxsTransacItem : : FLAG_TYPE_MSG_LIST_REQ ) | |
( flag & RsNxsTransacItem : : FLAG_TYPE_GRP_LIST_REQ ) )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( nxsTrans - > PeerId ( ) ) < < " complete Sending Msg/Grp Request, transN: " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
# endif
} else if ( flag & RsNxsTransacItem : : FLAG_TYPE_GRPS )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( nxsTrans - > PeerId ( ) ) < < " complete Sending Grp Data, transN: " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
# endif
} else if ( flag & RsNxsTransacItem : : FLAG_TYPE_MSGS )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( nxsTrans - > PeerId ( ) ) < < " complete Sending Msg Data, transN: " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
# endif
}
} else if ( tr - > mFlag = = NxsTransaction : : FLAG_STATE_FAILED ) {
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( nxsTrans - > PeerId ( ) ) < < " Failed transaction! transN: " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
# endif
} else {
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( nxsTrans - > PeerId ( ) ) < < " Serious error unrecognised trans Flag! transN: " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
# endif
}
}
void RsGxsNetService : : locked_pushMsgTransactionFromList ( std : : list < RsNxsItem * > & reqList , const RsPeerId & peerId , const uint32_t & transN )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peerId ) < < " locked_pushMsgTransactionFromList() " < < std : : endl ;
GXSNETDEBUG_P_ ( peerId ) < < " nelems = " < < reqList . size ( ) < < std : : endl ;
GXSNETDEBUG_P_ ( peerId ) < < " peerId = " < < peerId < < std : : endl ;
GXSNETDEBUG_P_ ( peerId ) < < " transN = " < < transN < < std : : endl ;
# endif
# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ ( peerId ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " - sending message request to peer "
< < peerId < < " for " < < reqList . size ( ) < < " messages " < < std : : endl ;
# endif
RsNxsTransacItem * transac = new RsNxsTransacItem ( mServType ) ;
transac - > transactFlag = RsNxsTransacItem : : FLAG_TYPE_MSG_LIST_REQ
| RsNxsTransacItem : : FLAG_BEGIN_P1 ;
transac - > timestamp = 0 ;
transac - > nItems = reqList . size ( ) ;
transac - > PeerId ( peerId ) ;
transac - > transactionNumber = transN ;
NxsTransaction * newTrans = new NxsTransaction ( ) ;
newTrans - > mItems = reqList ;
newTrans - > mFlag = NxsTransaction : : FLAG_STATE_WAITING_CONFIRM ;
newTrans - > mTimeOut = time ( NULL ) + mTransactionTimeOut ;
// create transaction copy with your id to indicate
// its an outgoing transaction
newTrans - > mTransaction = new RsNxsTransacItem ( * transac ) ;
newTrans - > mTransaction - > PeerId ( mOwnId ) ;
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if ( locked_addTransaction ( newTrans ) )
sendItem ( transac ) ;
else
{
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delete newTrans ;
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delete transac ;
}
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# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peerId ) < < " Requested new transaction for " < < reqList . size ( ) < < " items. " < < std : : endl ;
# endif
}
void RsGxsNetService : : locked_genReqMsgTransaction ( NxsTransaction * tr )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG___ < < " RsGxsNetService::genReqMsgTransaction() " < < std : : endl ;
# endif
// to create a transaction you need to know who you are transacting with
// then what msgs to request
// then add an active Transaction for request
std : : list < RsNxsSyncMsgItem * > msgItemL ;
std : : list < RsNxsItem * > : : iterator lit = tr - > mItems . begin ( ) ;
// first get item list sent from transaction
for ( ; lit ! = tr - > mItems . end ( ) ; + + lit )
{
RsNxsSyncMsgItem * item = dynamic_cast < RsNxsSyncMsgItem * > ( * lit ) ;
if ( item )
{
msgItemL . push_back ( item ) ;
} else
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " RsGxsNetService::genReqMsgTransaction(): item failed cast to RsNxsSyncMsgItem* " < < std : : endl ;
# endif
}
}
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " found " < < msgItemL . size ( ) < < " messages in this transaction. " < < std : : endl ;
# endif
if ( msgItemL . empty ( ) )
return ;
// get grp id for this transaction
RsNxsSyncMsgItem * item = msgItemL . front ( ) ;
const RsGxsGroupId & grpId = item - > grpId ;
// store the count for the peer who sent the message list
uint32_t mcount = msgItemL . size ( ) ;
RsPeerId pid = msgItemL . front ( ) - > PeerId ( ) ;
RsGroupNetworkStatsRecord & gnsr = mGroupNetworkStats [ grpId ] ;
std : : set < RsPeerId > : : size_type oldSuppliersCount = gnsr . suppliers . size ( ) ;
uint32_t oldVisibleCount = gnsr . max_visible_count ;
gnsr . suppliers . insert ( pid ) ;
gnsr . max_visible_count = std : : max ( gnsr . max_visible_count , mcount ) ;
if ( oldVisibleCount ! = gnsr . max_visible_count | | oldSuppliersCount ! = gnsr . suppliers . size ( ) )
mObserver - > notifyChangedGroupStats ( grpId ) ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " grpId = " < < grpId < < std : : endl ;
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " retrieving grp mesta data... " < < std : : endl ;
# endif
RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > grpMetaMap ;
grpMetaMap [ grpId ] = NULL ;
mDataStore - > retrieveGxsGrpMetaData ( grpMetaMap ) ;
RsGxsGrpMetaData * grpMeta = grpMetaMap [ grpId ] ;
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if ( grpMeta = = NULL ) // this should not happen, but just in case...
{
std : : cerr < < " (EE) grpMeta is NULL in " < < __PRETTY_FUNCTION__ < < " line " < < __LINE__ < < " . This is very unexpected. " < < std : : endl ;
return ;
}
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if ( ! ( grpMeta - > mSubscribeFlags & GXS_SERV : : GROUP_SUBSCRIBE_SUBSCRIBED ) )
{
// For unsubscribed groups, we update the timestamp something more recent, so that the group content will not be asked to the same
// peer again, unless the peer has new info about it. It's important to use the same clock (this is peer's clock) so that
// we never compare times from different (and potentially badly sync-ed clocks)
std : : cerr < < " (EE) stepping in part of the code ( " < < __PRETTY_FUNCTION__ < < " ) where we shouldn't. This is a bug. " < < std : : endl ;
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# ifdef TO_REMOVE
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locked_stampPeerGroupUpdateTime ( pid , grpId , tr - > mTransaction - > updateTS , msgItemL . size ( ) ) ;
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# endif
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return ;
}
int cutoff = 0 ;
if ( grpMeta ! = NULL )
cutoff = grpMeta - > mReputationCutOff ;
GxsMsgReq reqIds ;
reqIds [ grpId ] = std : : vector < RsGxsMessageId > ( ) ;
GxsMsgMetaResult result ;
mDataStore - > retrieveGxsMsgMetaData ( reqIds , result ) ;
std : : vector < RsGxsMsgMetaData * > & msgMetaV = result [ grpId ] ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " retrieving grp message list... " < < std : : endl ;
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " grp locally contains " < < msgMetaV . size ( ) < < " messsages. " < < std : : endl ;
# endif
std : : vector < RsGxsMsgMetaData * > : : const_iterator vit = msgMetaV . begin ( ) ;
std : : set < RsGxsMessageId > msgIdSet ;
// put ids in set for each searching
for ( ; vit ! = msgMetaV . end ( ) ; + + vit )
{
msgIdSet . insert ( ( * vit ) - > mMsgId ) ;
delete ( * vit ) ;
}
msgMetaV . clear ( ) ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " grp locally contains " < < msgIdSet . size ( ) < < " unique messsages. " < < std : : endl ;
# endif
// get unique id for this transaction
uint32_t transN = locked_getTransactionId ( ) ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " new transaction ID: " < < transN < < std : : endl ;
# endif
// add msgs that you don't have to request list
std : : list < RsNxsSyncMsgItem * > : : iterator llit = msgItemL . begin ( ) ;
std : : list < RsNxsItem * > reqList ;
int reqListSize = 0 ;
const RsPeerId peerFrom = tr - > mTransaction - > PeerId ( ) ;
MsgAuthorV toVet ;
std : : list < RsPeerId > peers ;
peers . push_back ( tr - > mTransaction - > PeerId ( ) ) ;
bool reqListSizeExceeded = false ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " sorting items... " < < std : : endl ;
# endif
for ( ; llit ! = msgItemL . end ( ) ; + + llit )
{
RsNxsSyncMsgItem * & syncItem = * llit ;
const RsGxsMessageId & msgId = syncItem - > msgId ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " msg ID = " < < msgId ;
# endif
if ( reqListSize > = MAX_REQLIST_SIZE )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " . reqlist too big. Pruning out this item for now. " < < std : : endl ;
# endif
reqListSizeExceeded = true ;
continue ; // we should actually break, but we need to print some debug info.
}
if ( reqListSize < MAX_REQLIST_SIZE & & msgIdSet . find ( msgId ) = = msgIdSet . end ( ) )
{
// if reputation is in reputations cache then proceed
// or if there isn't an author (note as author requirement is
// enforced at service level, if no author is needed then reputation
// filtering is optional)
bool noAuthor = syncItem - > authorId . isNull ( ) ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " , reqlist size= " < < reqListSize < < " , message not present. " ;
# endif
// grp meta must be present if author present
if ( ! noAuthor & & grpMeta = = NULL )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " , no group meta found. Givign up. " < < std : : endl ;
# endif
continue ;
}
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// FIXTESTS global variable rsReputations not available in unittests!
if ( rsReputations = = 0 ) { std : : cerr < < " rsReputations==0, accepting all messages! " < < std : : endl ; }
if ( rsReputations & & rsReputations - > isIdentityBanned ( syncItem - > authorId ) )
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{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " , Identity " < < syncItem - > authorId < < " is banned. Not requesting message! " < < std : : endl ;
# endif
continue ;
}
if ( mRejectedMessages . find ( msgId ) ! = mRejectedMessages . end ( ) )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " , message has been recently rejected. Not requesting message! " < < std : : endl ;
# endif
continue ;
}
if ( mReputations - > haveReputation ( syncItem - > authorId ) | | noAuthor )
{
GixsReputation rep ;
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " , author Id= " < < syncItem - > authorId < < " . Reputation: " ;
# endif
if ( ! noAuthor )
mReputations - > getReputation ( syncItem - > authorId , rep ) ;
// if author is required for this message, it will simply get dropped
// at genexchange side of things
if ( rep . score > = ( int ) grpMeta - > mReputationCutOff | | noAuthor )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " , passed! Adding message to req list. " < < std : : endl ;
# endif
RsNxsSyncMsgItem * msgItem = new RsNxsSyncMsgItem ( mServType ) ;
msgItem - > grpId = grpId ;
msgItem - > msgId = msgId ;
msgItem - > flag = RsNxsSyncMsgItem : : FLAG_REQUEST ;
msgItem - > transactionNumber = transN ;
msgItem - > PeerId ( peerFrom ) ;
reqList . push_back ( msgItem ) ;
+ + reqListSize ;
}
# ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " , failed! " < < std : : endl ;
# endif
}
else
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " , no author/no reputation. Pushed to Vetting list. " < < std : : endl ;
# endif
// preload for speed
mReputations - > loadReputation ( syncItem - > authorId , peers ) ;
MsgAuthEntry entry ;
entry . mAuthorId = syncItem - > authorId ;
entry . mGrpId = syncItem - > grpId ;
entry . mMsgId = syncItem - > msgId ;
toVet . push_back ( entry ) ;
}
}
# ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " . already here. " < < std : : endl ;
# endif
}
if ( ! toVet . empty ( ) )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " Vetting list: " < < toVet . size ( ) < < " elements. " < < std : : endl ;
# endif
MsgRespPending * mrp = new MsgRespPending ( mReputations , tr - > mTransaction - > PeerId ( ) , toVet , cutoff ) ;
mPendingResp . push_back ( mrp ) ;
}
if ( ! reqList . empty ( ) )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " Request list: " < < reqList . size ( ) < < " elements. " < < std : : endl ;
# endif
locked_pushMsgTransactionFromList ( reqList , tr - > mTransaction - > PeerId ( ) , transN ) ;
if ( reqListSizeExceeded )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " Marking update operation as unfinished. " < < std : : endl ;
# endif
mPartialMsgUpdates [ tr - > mTransaction - > PeerId ( ) ] . insert ( item - > grpId ) ;
}
else
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " Marking update operation as terminal. " < < std : : endl ;
# endif
mPartialMsgUpdates [ tr - > mTransaction - > PeerId ( ) ] . erase ( item - > grpId ) ;
}
}
else
{
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# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( item - > PeerId ( ) , grpId ) < < " Request list is empty. Not doing anything. " < < std : : endl ;
# endif
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// The list to req is empty. That means we already have all messages that this peer can
// provide. So we can stamp the group from this peer to be up to date.
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// Part of this is already achieved in two other places:
// - the GroupStats exchange system, which counts the messages at each peer. It could also supply TS for the messages, but it does not for the time being
// - client TS are updated when receiving messages
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locked_stampPeerGroupUpdateTime ( pid , grpId , tr - > mTransaction - > updateTS , msgItemL . size ( ) ) ;
}
}
void RsGxsNetService : : locked_stampPeerGroupUpdateTime ( const RsPeerId & pid , const RsGxsGroupId & grpId , time_t tm , uint32_t n_messages )
{
std : : map < RsPeerId , RsGxsMsgUpdateItem * > : : iterator it = mClientMsgUpdateMap . find ( pid ) ;
RsGxsMsgUpdateItem * pitem ;
if ( it = = mClientMsgUpdateMap . end ( ) )
{
pitem = new RsGxsMsgUpdateItem ( mServType ) ;
pitem - > peerId = pid ;
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mClientMsgUpdateMap [ pid ] = pitem ;
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}
else
pitem = it - > second ;
pitem - > msgUpdateInfos [ grpId ] . time_stamp = tm ;
pitem - > msgUpdateInfos [ grpId ] . message_count = std : : max ( n_messages , pitem - > msgUpdateInfos [ grpId ] . message_count ) ;
IndicateConfigChanged ( ) ;
}
void RsGxsNetService : : locked_pushGrpTransactionFromList ( std : : list < RsNxsItem * > & reqList , const RsPeerId & peerId , const uint32_t & transN )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( peerId ) < < " locked_pushGrpTransactionFromList() " < < std : : endl ;
GXSNETDEBUG_P_ ( peerId ) < < " nelems = " < < reqList . size ( ) < < std : : endl ;
GXSNETDEBUG_P_ ( peerId ) < < " peerId = " < < peerId < < std : : endl ;
GXSNETDEBUG_P_ ( peerId ) < < " transN = " < < transN < < std : : endl ;
# endif
# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ ( peerId ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " - sending group request to peer "
< < peerId < < " for " < < reqList . size ( ) < < " groups " < < std : : endl ;
# endif
RsNxsTransacItem * transac = new RsNxsTransacItem ( mServType ) ;
transac - > transactFlag = RsNxsTransacItem : : FLAG_TYPE_GRP_LIST_REQ
| RsNxsTransacItem : : FLAG_BEGIN_P1 ;
transac - > timestamp = 0 ;
transac - > nItems = reqList . size ( ) ;
transac - > PeerId ( peerId ) ;
transac - > transactionNumber = transN ;
NxsTransaction * newTrans = new NxsTransaction ( ) ;
newTrans - > mItems = reqList ;
newTrans - > mFlag = NxsTransaction : : FLAG_STATE_WAITING_CONFIRM ;
newTrans - > mTimeOut = time ( NULL ) + mTransactionTimeOut ;
newTrans - > mTransaction = new RsNxsTransacItem ( * transac ) ;
newTrans - > mTransaction - > PeerId ( mOwnId ) ;
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if ( locked_addTransaction ( newTrans ) )
sendItem ( transac ) ;
else
{
delete newTrans ;
delete transac ;
}
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}
void RsGxsNetService : : addGroupItemToList ( NxsTransaction * & tr , const RsGxsGroupId & grpId , uint32_t & transN , std : : list < RsNxsItem * > & reqList )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grpId ) < < " RsGxsNetService::addGroupItemToList() Added GroupID: << grpId " < < std : : endl ;
# endif
RsNxsSyncGrpItem * grpItem = new RsNxsSyncGrpItem ( mServType ) ;
grpItem - > PeerId ( tr - > mTransaction - > PeerId ( ) ) ;
grpItem - > grpId = grpId ;
grpItem - > flag = RsNxsSyncMsgItem : : FLAG_REQUEST ;
grpItem - > transactionNumber = transN ;
reqList . push_back ( grpItem ) ;
}
void RsGxsNetService : : locked_genReqGrpTransaction ( NxsTransaction * tr )
{
// to create a transaction you need to know who you are transacting with
// then what grps to request
// then add an active Transaction for request
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " locked_genReqGrpTransaction(): " < < std : : endl ;
# endif
RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > grpMetaMap ;
std : : list < RsNxsSyncGrpItem * > grpItemL ;
for ( std : : list < RsNxsItem * > : : iterator lit = tr - > mItems . begin ( ) ; lit ! = tr - > mItems . end ( ) ; + + lit )
{
RsNxsSyncGrpItem * item = dynamic_cast < RsNxsSyncGrpItem * > ( * lit ) ;
if ( item )
{
grpItemL . push_back ( item ) ;
grpMetaMap [ item - > grpId ] = NULL ;
} else
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , item - > grpId ) < < " RsGxsNetService::genReqGrpTransaction(): item failed to caste to RsNxsSyncMsgItem* " < < std : : endl ;
# endif
}
}
if ( grpItemL . empty ( ) )
return ;
mDataStore - > retrieveGxsGrpMetaData ( grpMetaMap ) ;
// now do compare and add loop
std : : list < RsNxsSyncGrpItem * > : : iterator llit = grpItemL . begin ( ) ;
std : : list < RsNxsItem * > reqList ;
uint32_t transN = locked_getTransactionId ( ) ;
GrpAuthorV toVet ;
std : : list < RsPeerId > peers ;
peers . push_back ( tr - > mTransaction - > PeerId ( ) ) ;
for ( ; llit ! = grpItemL . end ( ) ; + + llit )
{
RsNxsSyncGrpItem * & grpSyncItem = * llit ;
const RsGxsGroupId & grpId = grpSyncItem - > grpId ;
std : : map < RsGxsGroupId , RsGxsGrpMetaData * > : : const_iterator metaIter = grpMetaMap . find ( grpId ) ;
bool haveItem = false ;
bool latestVersion = false ;
if ( metaIter ! = grpMetaMap . end ( ) & & metaIter - > second )
{
haveItem = true ;
latestVersion = grpSyncItem - > publishTs > metaIter - > second - > mPublishTs ;
}
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// FIXTESTS global variable rsReputations not available in unittests!
if ( rsReputations = = 0 ) { std : : cerr < < " rsReputations==0, accepting all groups! " < < std : : endl ; }
if ( ! grpSyncItem - > authorId . isNull ( ) & & rsReputations & & rsReputations - > isIdentityBanned ( grpSyncItem - > authorId ) )
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{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grpId ) < < " Identity " < < grpSyncItem - > authorId < < " is banned. Not syncing group. " < < std : : endl ;
# endif
continue ;
}
if ( ( mGrpAutoSync & & ! haveItem ) | | latestVersion )
{
// determine if you need to check reputation
bool checkRep = ! grpSyncItem - > authorId . isNull ( ) ;
// check if you have reputation, if you don't then
// place in holding pen
if ( checkRep )
{
if ( mReputations - > haveReputation ( grpSyncItem - > authorId ) )
{
GixsReputation rep ;
mReputations - > getReputation ( grpSyncItem - > authorId , rep ) ;
if ( rep . score > = GIXS_CUT_OFF )
{
addGroupItemToList ( tr , grpId , transN , reqList ) ;
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grpId ) < < " reputation cut off: limit= " < < GIXS_CUT_OFF < < " value= " < < rep . score < < " : allowed. " < < std : : endl ;
# endif
}
# ifdef NXS_NET_DEBUG_0
else
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grpId ) < < " reputation cut off: limit= " < < GIXS_CUT_OFF < < " value= " < < rep . score < < " : you shall not pass. " < < std : : endl ;
# endif
}
else
{
// preload reputation for later
mReputations - > loadReputation ( grpSyncItem - > authorId , peers ) ;
GrpAuthEntry entry ;
entry . mAuthorId = grpSyncItem - > authorId ;
entry . mGrpId = grpSyncItem - > grpId ;
toVet . push_back ( entry ) ;
}
}
else
{
addGroupItemToList ( tr , grpId , transN , reqList ) ;
}
}
}
if ( ! toVet . empty ( ) )
{
RsPeerId peerId = tr - > mTransaction - > PeerId ( ) ;
GrpRespPending * grp = new GrpRespPending ( mReputations , peerId , toVet ) ;
mPendingResp . push_back ( grp ) ;
}
if ( ! reqList . empty ( ) )
locked_pushGrpTransactionFromList ( reqList , tr - > mTransaction - > PeerId ( ) , transN ) ;
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else
{
ClientGrpMap : : iterator it = mClientGrpUpdateMap . find ( tr - > mTransaction - > PeerId ( ) ) ;
RsGxsGrpUpdateItem * item = NULL ;
if ( it ! = mClientGrpUpdateMap . end ( ) )
item = it - > second ;
else
{
item = new RsGxsGrpUpdateItem ( mServType ) ;
mClientGrpUpdateMap . insert ( std : : make_pair ( tr - > mTransaction - > PeerId ( ) , item ) ) ;
}
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " reqList is empty, updating anyway ClientGrpUpdate TS for peer " < < tr - > mTransaction - > PeerId ( ) < < " to: " < < tr - > mTransaction - > updateTS < < std : : endl ;
# endif
item - > grpUpdateTS = tr - > mTransaction - > updateTS ;
item - > peerId = tr - > mTransaction - > PeerId ( ) ;
IndicateConfigChanged ( ) ;
}
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}
void RsGxsNetService : : locked_genSendGrpsTransaction ( NxsTransaction * tr )
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " locked_genSendGrpsTransaction() Generating Grp data send fron TransN: " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
# endif
// go groups requested in transaction tr
std : : list < RsNxsItem * > : : iterator lit = tr - > mItems . begin ( ) ;
RsGxsMetaDataTemporaryMap < RsNxsGrp > grps ;
for ( ; lit ! = tr - > mItems . end ( ) ; + + lit )
{
RsNxsSyncGrpItem * item = dynamic_cast < RsNxsSyncGrpItem * > ( * lit ) ;
if ( item )
grps [ item - > grpId ] = NULL ;
else
{
# ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , item - > grpId ) < < " RsGxsNetService::locked_genSendGrpsTransaction(): item failed to caste to RsNxsSyncGrpItem* " < < std : : endl ;
# endif
}
}
if ( ! grps . empty ( ) )
mDataStore - > retrieveNxsGrps ( grps , false , false ) ;
else
return ;
NxsTransaction * newTr = new NxsTransaction ( ) ;
newTr - > mFlag = NxsTransaction : : FLAG_STATE_WAITING_CONFIRM ;
uint32_t transN = locked_getTransactionId ( ) ;
// store grp items to send in transaction
std : : map < RsGxsGroupId , RsNxsGrp * > : : iterator mit = grps . begin ( ) ;
RsPeerId peerId = tr - > mTransaction - > PeerId ( ) ;
for ( ; mit ! = grps . end ( ) ; + + mit )
{
mit - > second - > PeerId ( peerId ) ; // set so it gets sent to right peer
mit - > second - > transactionNumber = transN ;
newTr - > mItems . push_back ( mit - > second ) ;
mit - > second = NULL ; // avoids deletion
}
if ( newTr - > mItems . empty ( ) ) {
delete newTr ;
return ;
}
uint32_t updateTS = 0 ;
if ( mGrpServerUpdateItem )
updateTS = mGrpServerUpdateItem - > grpUpdateTS ;
# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " - sending global group TS "
< < updateTS < < " to peer " < < tr - > mTransaction - > PeerId ( ) < < std : : endl ;
# endif
RsNxsTransacItem * ntr = new RsNxsTransacItem ( mServType ) ;
ntr - > transactionNumber = transN ;
ntr - > transactFlag = RsNxsTransacItem : : FLAG_BEGIN_P1 | RsNxsTransacItem : : FLAG_TYPE_GRPS ;
ntr - > updateTS = updateTS ;
ntr - > nItems = grps . size ( ) ;
ntr - > PeerId ( tr - > mTransaction - > PeerId ( ) ) ;
newTr - > mTransaction = new RsNxsTransacItem ( * ntr ) ;
newTr - > mTransaction - > PeerId ( mOwnId ) ;
newTr - > mTimeOut = time ( NULL ) + mTransactionTimeOut ;
ntr - > PeerId ( tr - > mTransaction - > PeerId ( ) ) ;
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if ( locked_addTransaction ( newTr ) )
sendItem ( ntr ) ;
else
{
delete ntr ;
delete newTr ;
}
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return ;
}
void RsGxsNetService : : runVetting ( )
{
// The vetting operation consists in transforming pending group/msg Id requests and grp/msg content requests
// into real transactions, based on the authorisations of the Peer Id these transactions are targeted to using the
// reputation system.
//
RS_STACK_MUTEX ( mNxsMutex ) ;
std : : vector < AuthorPending * > : : iterator vit = mPendingResp . begin ( ) ;
for ( ; vit ! = mPendingResp . end ( ) ; )
{
AuthorPending * ap = * vit ;
if ( ap - > accepted ( ) | | ap - > expired ( ) )
{
// add to transactions
if ( AuthorPending : : MSG_PEND = = ap - > getType ( ) )
{
MsgRespPending * mrp = static_cast < MsgRespPending * > ( ap ) ;
locked_createTransactionFromPending ( mrp ) ;
}
else if ( AuthorPending : : GRP_PEND = = ap - > getType ( ) )
{
GrpRespPending * grp = static_cast < GrpRespPending * > ( ap ) ;
locked_createTransactionFromPending ( grp ) ;
} else
std : : cerr < < " RsGxsNetService::runVetting(): Unknown pending type! Type: " < < ap - > getType ( ) < < std : : endl ;
delete ap ;
vit = mPendingResp . erase ( vit ) ;
}
else
{
+ + vit ;
}
}
// now lets do circle vetting
std : : vector < GrpCircleVetting * > : : iterator vit2 = mPendingCircleVets . begin ( ) ;
for ( ; vit2 ! = mPendingCircleVets . end ( ) ; )
{
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG___ < < " Examining/clearing pending vetting of type " < < ( * vit2 ) - > getType ( ) < < std : : endl ;
# endif
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GrpCircleVetting * & gcv = * vit2 ;
if ( gcv - > cleared ( ) | | gcv - > expired ( ) )
{
if ( gcv - > getType ( ) = = GrpCircleVetting : : GRP_ID_PEND )
{
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GrpCircleIdRequestVetting * gcirv = static_cast < GrpCircleIdRequestVetting * > ( gcv ) ;
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_P_ ( gcirv - > mPeerId ) < < " vetting is a GRP ID PENDING Response " < < std : : endl ;
# endif
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if ( ! locked_createTransactionFromPending ( gcirv ) )
{
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_P_ ( gcirv - > mPeerId ) < < " Response sent! " < < std : : endl ;
# endif
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+ + vit2 ;
continue ;
}
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}
else if ( gcv - > getType ( ) = = GrpCircleVetting : : MSG_ID_SEND_PEND )
{
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MsgCircleIdsRequestVetting * mcirv = static_cast < MsgCircleIdsRequestVetting * > ( gcv ) ;
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_P_ ( mcirv - > mPeerId ) < < " vetting is a MSG ID PENDING Response " < < std : : endl ;
# endif
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if ( mcirv - > cleared ( ) )
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{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_P_ ( mcirv - > mPeerId ) < < " vetting cleared! Sending... " < < std : : endl ;
# endif
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if ( ! locked_createTransactionFromPending ( mcirv ) )
continue ; // keep it in the list for retry
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}
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}
else
{
# ifdef NXS_NET_DEBUG_4
std : : cerr < < " RsGxsNetService::runVetting(): Unknown Circle pending type! Type: " < < gcv - > getType ( ) < < std : : endl ;
# endif
}
delete gcv ;
vit2 = mPendingCircleVets . erase ( vit2 ) ;
}
else
{
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG___ < < " ... not cleared yet. " < < std : : endl ;
# endif
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+ + vit2 ;
}
}
}
void RsGxsNetService : : locked_genSendMsgsTransaction ( NxsTransaction * tr )
{
# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_P_ ( tr - > mTransaction - > PeerId ( ) ) < < " locked_genSendMsgsTransaction() Generating Msg data send fron TransN: " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
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# endif
// go groups requested in transaction tr
std : : list < RsNxsItem * > : : iterator lit = tr - > mItems . begin ( ) ;
GxsMsgReq msgIds ;
GxsMsgResult msgs ;
if ( tr - > mItems . empty ( ) ) {
return ;
}
// hacky assumes a transaction only consist of a single grpId
RsGxsGroupId grpId ;
for ( ; lit ! = tr - > mItems . end ( ) ; + + lit )
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{
RsNxsSyncMsgItem * item = dynamic_cast < RsNxsSyncMsgItem * > ( * lit ) ;
if ( item )
{
msgIds [ item - > grpId ] . push_back ( item - > msgId ) ;
if ( grpId . isNull ( ) )
grpId = item - > grpId ;
else if ( grpId ! = item - > grpId )
{
std : : cerr < < " RsGxsNetService::locked_genSendMsgsTransaction(): transaction on two different groups! ERROR! " < < std : : endl ;
return ;
}
}
else
{
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grpId ) < < " RsGxsNetService::locked_genSendMsgsTransaction(): item failed to caste to RsNxsSyncMsgItem* " < < std : : endl ;
# endif
}
}
# ifdef CODE_TO_ENCRYPT_MESSAGE_DATA
// now if transaction is limited to an external group, encrypt it for members of the group.
RsGxsCircleId encryption_circle ;
std : : map < RsGxsGroupId , RsGxsGrpMetaData * > grp ;
grp [ grpId ] = NULL ;
mDataStore - > retrieveGxsGrpMetaData ( grp ) ;
RsGxsGrpMetaData * grpMeta = grp [ grpId ] ;
if ( grpMeta = = NULL )
{
std : : cerr < < " (EE) cannot retrieve group meta data for message transaction " < < tr - > mTransaction - > transactionNumber < < std : : endl ;
return ;
}
encryption_circle = grpMeta - > mCircleId ;
delete grpMeta ;
grp . clear ( ) ;
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_PG ( tr - > mTransaction - > PeerId ( ) , grpId ) < < " Msg transaction items will be encrypted for circle " < < std : : endl ;
# endif
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# endif
mDataStore - > retrieveNxsMsgs ( msgIds , msgs , false , false ) ;
NxsTransaction * newTr = new NxsTransaction ( ) ;
newTr - > mFlag = NxsTransaction : : FLAG_STATE_WAITING_CONFIRM ;
uint32_t transN = locked_getTransactionId ( ) ;
// store msg items to send in transaction
GxsMsgResult : : iterator mit = msgs . begin ( ) ;
RsPeerId peerId = tr - > mTransaction - > PeerId ( ) ;
uint32_t msgSize = 0 ;
for ( ; mit ! = msgs . end ( ) ; + + mit )
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{
std : : vector < RsNxsMsg * > & msgV = mit - > second ;
std : : vector < RsNxsMsg * > : : iterator vit = msgV . begin ( ) ;
for ( ; vit ! = msgV . end ( ) ; + + vit )
{
RsNxsMsg * msg = * vit ;
msg - > PeerId ( peerId ) ;
msg - > transactionNumber = transN ;
// Quick trick to clamp messages with an exceptionnally large size. Signature will fail on client side, and the message
// will be rejected.
if ( msg - > msg . bin_len > MAX_ALLOWED_GXS_MESSAGE_SIZE )
{
std : : cerr < < " (WW) message with ID " < < msg - > msgId < < " in group " < < msg - > grpId < < " exceeds size limit of " < < MAX_ALLOWED_GXS_MESSAGE_SIZE < < " bytes. Actual size is " < < msg - > msg . bin_len < < " bytes. Message will be truncated and rejected at client. " < < std : : endl ;
msg - > msg . bin_len = 1 ; // arbitrary small size, but not 0. No need to send the data since it's going to be rejected.
}
# ifdef NXS_FRAG
MsgFragments fragments ;
fragmentMsg ( * msg , fragments ) ;
delete msg ;
MsgFragments : : iterator mit = fragments . begin ( ) ;
for ( ; mit ! = fragments . end ( ) ; + + mit )
{
newTr - > mItems . push_back ( * mit ) ;
msgSize + + ;
}
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# else
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msg - > count = 1 ; // only one piece. This is to keep compatibility if we ever implement fragmenting in the future.
msg - > pos = 0 ;
newTr - > mItems . push_back ( msg ) ;
msgSize + + ;
# endif
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# ifdef CODE_TO_ENCRYPT_MESSAGE_DATA
// encrypt
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if ( ! encryption_circle . isNull ( ) )
{
uint32_t status = RS_NXS_ITEM_ENCRYPTION_STATUS_UNKNOWN ;
RsNxsEncryptedDataItem encrypted_msg_item = NULL ;
if ( encryptSingleNxsItem ( msg , encryption_circle , encrypted_msg_item , status ) )
{
newTr - > mItems . push_back ( msg ) ;
delete msg ;
}
else
{
}
}
else
{
newTr - > mItems . push_back ( msg ) ;
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msgSize + + ;
}
# endif
}
}
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if ( newTr - > mItems . empty ( ) ) {
delete newTr ;
return ;
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}
// now send a transaction item and store the transaction data
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uint32_t updateTS = 0 ;
ServerMsgMap : : const_iterator cit = mServerMsgUpdateMap . find ( grpId ) ;
if ( cit ! = mServerMsgUpdateMap . end ( ) )
updateTS = cit - > second - > msgUpdateTS ;
RsNxsTransacItem * ntr = new RsNxsTransacItem ( mServType ) ;
ntr - > transactionNumber = transN ;
ntr - > transactFlag = RsNxsTransacItem : : FLAG_BEGIN_P1 |
RsNxsTransacItem : : FLAG_TYPE_MSGS ;
ntr - > updateTS = updateTS ;
ntr - > nItems = msgSize ;
ntr - > PeerId ( peerId ) ;
newTr - > mTransaction = new RsNxsTransacItem ( * ntr ) ;
newTr - > mTransaction - > PeerId ( mOwnId ) ;
newTr - > mTimeOut = time ( NULL ) + mTransactionTimeOut ;
# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_PG ( peerId , grpId ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " - sending message update to peer " < < peerId < < " for group " < < grpId < < " with TS= " < < nice_time_stamp ( time ( NULL ) , updateTS ) < < " (secs ago) " < < std : : endl ;
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# endif
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ntr - > PeerId ( tr - > mTransaction - > PeerId ( ) ) ;
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if ( locked_addTransaction ( newTr ) )
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sendItem ( ntr ) ;
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else
{
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delete ntr ;
delete newTr ;
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}
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return ;
}
uint32_t RsGxsNetService : : locked_getTransactionId ( )
{
return + + mTransactionN ;
}
bool RsGxsNetService : : locked_addTransaction ( NxsTransaction * tr )
{
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const RsPeerId & peer = tr - > mTransaction - > PeerId ( ) ;
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# ifdef NXS_NET_DEBUG_1
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GXSNETDEBUG_P_ ( peer ) < < " locked_addTransaction() " < < std : : endl ;
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# endif
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uint32_t transN = tr - > mTransaction - > transactionNumber ;
TransactionIdMap & transMap = mTransactions [ peer ] ;
bool transNumExist = transMap . find ( transN ) ! = transMap . end ( ) ;
if ( transNumExist )
{
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# ifdef NXS_NET_DEBUG_1
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GXSNETDEBUG_P_ ( peer ) < < " Transaction number exist already, transN: " < < transN < < std : : endl ;
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# endif
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return false ;
}
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transMap [ transN ] = tr ;
return true ;
}
// Turns a single RsNxsItem into an encrypted one, suitable for the supplied destination circle.
// Returns false when the keys are not loaded. Question to solve: what do we do if we miss some keys??
// We should probably send anyway.
bool RsGxsNetService : : encryptSingleNxsItem ( RsNxsItem * item , const RsGxsCircleId & destination_circle , RsNxsItem * & encrypted_item , uint32_t & status )
{
encrypted_item = NULL ;
status = RS_NXS_ITEM_ENCRYPTION_STATUS_UNKNOWN ;
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " - Encrypting single item for peer " < < item - > PeerId ( ) < < " , for circle ID " < < destination_circle < < std : : endl ;
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# endif
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// 1 - Find out the list of GXS ids to encrypt for
// We could do smarter things (like see if the peer_id owns one of the circle's identities
// but for now we aim at the simplest solution: encrypt for all identities in the circle.
std : : list < RsGxsId > recipients ;
if ( ! mCircles - > recipients ( destination_circle , recipients ) )
{
std : : cerr < < " (EE) Cannot encrypt transaction: recipients list not available. Should re-try later. " < < std : : endl ;
status = RS_NXS_ITEM_ENCRYPTION_STATUS_CIRCLE_ERROR ;
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return false ;
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}
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if ( recipients . empty ( ) )
{
std : : cerr < < " (EE) No recipients found for circle " < < destination_circle < < " . Circle not in cache, or empty circle? " < < std : : endl ;
return false ;
}
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " Dest Ids: " < < std : : endl ;
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# endif
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std : : vector < RsTlvSecurityKey > recipient_keys ;
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for ( std : : list < RsGxsId > : : const_iterator it ( recipients . begin ( ) ) ; it ! = recipients . end ( ) ; + + it )
{
RsTlvSecurityKey pkey ;
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if ( ! mGixs - > getKey ( * it , pkey ) )
{
std : : cerr < < " (EE) Cannot retrieve public key " < < * it < < " for circle encryption. Should retry later? " < < std : : endl ;
// we should probably request the key?
status = RS_NXS_ITEM_ENCRYPTION_STATUS_GXS_KEY_MISSING ;
continue ;
}
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " added key " < < * it < < std : : endl ;
# endif
recipient_keys . push_back ( pkey ) ;
}
// 2 - call GXSSecurity to make a header item that encrypts for the given list of peers.
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " Encrypting... " < < std : : endl ;
# endif
uint32_t size = item - > serial_size ( ) ;
RsTemporaryMemory tempmem ( size ) ;
if ( ! item - > serialise ( tempmem , size ) )
{
std : : cerr < < " (EE) Cannot serialise item. Something went wrong. " < < std : : endl ;
status = RS_NXS_ITEM_ENCRYPTION_STATUS_SERIALISATION_ERROR ;
return false ;
}
unsigned char * encrypted_data = NULL ;
uint32_t encrypted_len = 0 ;
if ( ! GxsSecurity : : encrypt ( encrypted_data , encrypted_len , tempmem , size , recipient_keys ) )
{
std : : cerr < < " (EE) Cannot multi-encrypt item. Something went wrong. " < < std : : endl ;
status = RS_NXS_ITEM_ENCRYPTION_STATUS_ENCRYPTION_ERROR ;
return false ;
}
RsNxsEncryptedDataItem * enc_item = new RsNxsEncryptedDataItem ( mServType ) ;
enc_item - > encrypted_data . bin_len = encrypted_len ;
enc_item - > encrypted_data . bin_data = encrypted_data ;
// also copy all the important data.
enc_item - > transactionNumber = item - > transactionNumber ;
enc_item - > PeerId ( item - > PeerId ( ) ) ;
encrypted_item = enc_item ;
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " encrypted item of size " < < encrypted_len < < std : : endl ;
# endif
status = RS_NXS_ITEM_ENCRYPTION_STATUS_NO_ERROR ;
return true ;
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}
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// Tries to decrypt the transaction. First load the keys and process all items.
// If keys are loaded, encrypted items that cannot be decrypted are discarded.
// Otherwise the transaction is untouched for retry later.
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bool RsGxsNetService : : processTransactionForDecryption ( NxsTransaction * tr )
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{
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# ifdef NXS_NET_DEBUG_7
RsPeerId peerId = tr - > mTransaction - > PeerId ( ) ;
GXSNETDEBUG_P_ ( peerId ) < < " RsGxsNetService::decryptTransaction() " < < std : : endl ;
# endif
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std : : list < RsNxsItem * > decrypted_items ;
std : : vector < RsTlvSecurityKey > private_keys ;
// get all private keys. Normally we should look into the circle name and only supply the keys that we have
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for ( std : : list < RsNxsItem * > : : iterator it ( tr - > mItems . begin ( ) ) ; it ! = tr - > mItems . end ( ) ; )
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{
RsNxsEncryptedDataItem * encrypted_item = dynamic_cast < RsNxsEncryptedDataItem * > ( * it ) ;
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if ( encrypted_item = = NULL )
{
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# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_ ( peerId ) < < " skipping unencrypted item... " < < std : : endl ;
# endif
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+ + it ;
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continue ;
}
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// remove the encrypted item. After that it points to the next item to handle
it = tr - > mItems . erase ( it ) ;
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RsNxsItem * nxsitem = NULL ;
if ( decryptSingleNxsItem ( encrypted_item , nxsitem , & private_keys ) )
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{
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( peerId ) < < " Replacing the encrypted item with the clear one. " < < std : : endl ;
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# endif
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tr - > mItems . insert ( it , nxsitem ) ; // inserts before it, so no need to ++it
}
delete encrypted_item ;
}
return true ;
}
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bool RsGxsNetService : : decryptSingleNxsItem ( const RsNxsEncryptedDataItem * encrypted_item , RsNxsItem * & nxsitem , std : : vector < RsTlvSecurityKey > * pprivate_keys )
{
// if private_keys storage is supplied use/update them, otherwise, find which key should be used, and store them in a local std::vector.
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nxsitem = NULL ;
std : : vector < RsTlvSecurityKey > local_keys ;
std : : vector < RsTlvSecurityKey > & private_keys = pprivate_keys ? ( * pprivate_keys ) : local_keys ;
// we need the private keys to decrypt the item. First load them in!
bool key_loading_failed = false ;
if ( private_keys . empty ( ) )
{
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( encrypted_item - > PeerId ( ) ) < < " need to retrieve private keys... " < < std : : endl ;
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# endif
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std : : list < RsGxsId > own_keys ;
mGixs - > getOwnIds ( own_keys ) ;
for ( std : : list < RsGxsId > : : const_iterator it ( own_keys . begin ( ) ) ; it ! = own_keys . end ( ) ; + + it )
{
RsTlvSecurityKey private_key ;
if ( mGixs - > getPrivateKey ( * it , private_key ) )
{
private_keys . push_back ( private_key ) ;
# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( encrypted_item - > PeerId ( ) ) < < " retrieved private key " < < * it < < std : : endl ;
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# endif
}
else
{
std : : cerr < < " (EE) Cannot retrieve private key for ID " < < * it < < std : : endl ;
key_loading_failed = true ;
break ;
}
}
}
if ( key_loading_failed )
{
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( encrypted_item - > PeerId ( ) ) < < " Some keys not loaded.Returning false to retry later. " < < std : : endl ;
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# endif
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return false ;
}
// we do this only when something actually needs to be decrypted.
unsigned char * decrypted_mem = NULL ;
uint32_t decrypted_len = 0 ;
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( encrypted_item - > PeerId ( ) ) < < " Trying to decrypt item... " ;
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# endif
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if ( ! GxsSecurity : : decrypt ( decrypted_mem , decrypted_len , ( uint8_t * ) encrypted_item - > encrypted_data . bin_data , encrypted_item - > encrypted_data . bin_len , private_keys ) )
{
std : : cerr < < " Failed! Cannot decrypt this item. " < < std : : endl ;
decrypted_mem = NULL ; // for safety
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return false ;
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}
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# ifdef NXS_NET_DEBUG_7
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GXSNETDEBUG_P_ ( encrypted_item - > PeerId ( ) ) < < " Succeeded! deserialising... " < < std : : endl ;
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# endif
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// deserialise the item
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RsItem * ditem = NULL ;
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if ( decrypted_mem ! = NULL )
{
ditem = RsNxsSerialiser ( mServType ) . deserialise ( decrypted_mem , & decrypted_len ) ;
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free ( decrypted_mem ) ;
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if ( ditem ! = NULL )
{
ditem - > PeerId ( encrypted_item - > PeerId ( ) ) ; // This is needed because the deserialised item has no peer id
nxsitem = dynamic_cast < RsNxsItem * > ( ditem ) ;
}
else
std : : cerr < < " Cannot deserialise. Item encoding error! " < < std : : endl ;
return ( nxsitem ! = NULL ) ;
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}
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return false ;
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}
void RsGxsNetService : : cleanTransactionItems ( NxsTransaction * tr ) const
{
std : : list < RsNxsItem * > : : iterator lit = tr - > mItems . begin ( ) ;
for ( ; lit ! = tr - > mItems . end ( ) ; + + lit )
{
delete * lit ;
}
tr - > mItems . clear ( ) ;
}
void RsGxsNetService : : locked_pushGrpRespFromList ( std : : list < RsNxsItem * > & respList , const RsPeerId & peer , const uint32_t & transN )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( peer ) < < " locked_pushGrpResponseFromList() " < < std : : endl ;
GXSNETDEBUG_P_ ( peer ) < < " nelems = " < < respList . size ( ) < < std : : endl ;
GXSNETDEBUG_P_ ( peer ) < < " peerId = " < < peer < < std : : endl ;
GXSNETDEBUG_P_ ( peer ) < < " transN = " < < transN < < std : : endl ;
# endif
NxsTransaction * tr = new NxsTransaction ( ) ;
tr - > mItems = respList ;
tr - > mFlag = NxsTransaction : : FLAG_STATE_WAITING_CONFIRM ;
RsNxsTransacItem * trItem = new RsNxsTransacItem ( mServType ) ;
trItem - > transactFlag = RsNxsTransacItem : : FLAG_BEGIN_P1
| RsNxsTransacItem : : FLAG_TYPE_GRP_LIST_RESP ;
trItem - > nItems = respList . size ( ) ;
trItem - > timestamp = 0 ;
trItem - > PeerId ( peer ) ;
trItem - > transactionNumber = transN ;
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# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( peer ) < < " Setting tr->mTransaction->updateTS to " < < mGrpServerUpdateItem - > grpUpdateTS < < std : : endl ;
# endif
trItem - > updateTS = mGrpServerUpdateItem - > grpUpdateTS ;
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// also make a copy for the resident transaction
tr - > mTransaction = new RsNxsTransacItem ( * trItem ) ;
tr - > mTransaction - > PeerId ( mOwnId ) ;
tr - > mTimeOut = time ( NULL ) + mTransactionTimeOut ;
// signal peer to prepare for transaction
# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ ( peer ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " - sending group response to peer "
< < peer < < " with " < < respList . size ( ) < < " groups " < < std : : endl ;
# endif
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if ( locked_addTransaction ( tr ) )
sendItem ( trItem ) ;
else
{
delete tr ;
delete trItem ;
}
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}
bool RsGxsNetService : : locked_CanReceiveUpdate ( const RsNxsSyncGrpReqItem * item )
{
// Do we have new updates for this peer?
// This is one of the few places where we compare a local time stamp (mGrpServerUpdateItem->grpUpdateTS) to a peer's time stamp.
// Because this is the global modification time for groups, async-ed computers will eventually figure out that their data needs
// to be synced.
if ( mGrpServerUpdateItem )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " local modification time stamp: " < < std : : dec < < time ( NULL ) - mGrpServerUpdateItem - > grpUpdateTS < < " secs ago. Update sent: " < <
( ( item - > updateTS < mGrpServerUpdateItem - > grpUpdateTS ) ? " YES " : " NO " ) < < std : : endl ;
# endif
return item - > updateTS < mGrpServerUpdateItem - > grpUpdateTS ;
}
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ ( item - > PeerId ( ) ) < < " no local time stamp. This will be fixed after updateServerSyncTS(). Not sending for now. " < < std : : endl ;
# endif
return false ;
}
void RsGxsNetService : : handleRecvSyncGroup ( RsNxsSyncGrpReqItem * item )
{
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if ( ! item )
return ;
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RS_STACK_MUTEX ( mNxsMutex ) ;
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RsPeerId peer = item - > PeerId ( ) ;
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_P_ ( peer ) < < " HandleRecvSyncGroup(): Service: " < < mServType < < " from " < < peer < < " , Last update TS (from myself) sent from peer is T = " < < std : : dec < < time ( NULL ) - item - > updateTS < < " secs ago " < < std : : endl ;
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# endif
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if ( ! locked_CanReceiveUpdate ( item ) )
{
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_P_ ( peer ) < < " RsGxsNetService::handleRecvSyncGroup() update will not be sent. " < < std : : endl ;
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# endif
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return ;
}
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RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > grp ;
mDataStore - > retrieveGxsGrpMetaData ( grp ) ;
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_P_ ( peer ) < < " RsGxsNetService::handleRecvSyncGroup() retrieving local list of groups... " < < std : : endl ;
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# endif
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if ( grp . empty ( ) )
{
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_P_ ( peer ) < < " RsGxsNetService::handleRecvSyncGroup() Grp Empty " < < std : : endl ;
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# endif
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return ;
}
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std : : list < RsNxsItem * > itemL ;
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uint32_t transN = locked_getTransactionId ( ) ;
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std : : vector < GrpIdCircleVet > toVet ;
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_P_ ( peer ) < < " Group list beings being sent: " < < std : : endl ;
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# endif
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for ( std : : map < RsGxsGroupId , RsGxsGrpMetaData * > : : iterator mit = grp . begin ( ) ; mit ! = grp . end ( ) ; + + mit )
{
RsGxsGrpMetaData * grpMeta = mit - > second ;
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// Only send info about subscribed groups.
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if ( grpMeta - > mSubscribeFlags & GXS_SERV : : GROUP_SUBSCRIBE_SUBSCRIBED )
{
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// check if you can send this id to peer
// or if you need to add to the holding
// pen for peer to be vetted
bool should_encrypt = false ;
if ( canSendGrpId ( peer , * grpMeta , toVet , should_encrypt ) )
{
RsNxsSyncGrpItem * gItem = new RsNxsSyncGrpItem ( mServType ) ;
gItem - > flag = RsNxsSyncGrpItem : : FLAG_RESPONSE ;
gItem - > grpId = mit - > first ;
gItem - > publishTs = mit - > second - > mPublishTs ;
gItem - > authorId = grpMeta - > mAuthorId ;
gItem - > PeerId ( peer ) ;
gItem - > transactionNumber = transN ;
if ( should_encrypt )
{
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_PG ( peer , mit - > first ) < < " item for this grpId should be encrypted. " < < std : : endl ;
# endif
RsNxsItem * encrypted_item = NULL ;
uint32_t status = RS_NXS_ITEM_ENCRYPTION_STATUS_UNKNOWN ;
if ( encryptSingleNxsItem ( gItem , grpMeta - > mCircleId , encrypted_item , status ) )
{
itemL . push_back ( encrypted_item ) ;
delete gItem ;
}
else
{
switch ( status )
{
case RS_NXS_ITEM_ENCRYPTION_STATUS_CIRCLE_ERROR :
case RS_NXS_ITEM_ENCRYPTION_STATUS_GXS_KEY_MISSING : toVet . push_back ( GrpIdCircleVet ( grpMeta - > mGroupId , grpMeta - > mCircleId , grpMeta - > mAuthorId ) ) ;
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_PG ( peer , mit - > first ) < < " Could not encrypt item for grpId " < < grpMeta - > mGroupId < < " for circle " < < grpMeta - > mCircleId < < " . Will try later. Adding to vetting list. " < < std : : endl ;
# endif
break ;
default :
std : : cerr < < " Could not encrypt item for grpId " < < grpMeta - > mGroupId < < " for circle " < < grpMeta - > mCircleId < < " . Not sending it. " < < std : : endl ;
}
}
}
else
itemL . push_back ( gItem ) ;
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( peer , mit - > first ) < < " sending item for Grp " < < mit - > first < < " name= " < < grpMeta - > mGroupName < < " , publishTS= " < < std : : dec < < time ( NULL ) - mit - > second - > mPublishTs < < " secs ago to peer ID " < < peer < < std : : endl ;
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# endif
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}
}
}
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if ( ! toVet . empty ( ) )
mPendingCircleVets . push_back ( new GrpCircleIdRequestVetting ( mCircles , mPgpUtils , toVet , peer ) ) ;
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_P_ ( peer ) < < " final list sent (after vetting): " < < itemL . size ( ) < < " elements. " < < std : : endl ;
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# endif
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locked_pushGrpRespFromList ( itemL , peer , transN ) ;
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return ;
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}
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bool RsGxsNetService : : canSendGrpId ( const RsPeerId & sslId , RsGxsGrpMetaData & grpMeta , std : : vector < GrpIdCircleVet > & toVet , bool & should_encrypt )
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{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " RsGxsNetService::canSendGrpId() " < < std : : endl ;
# endif
// first do the simple checks
uint8_t circleType = grpMeta . mCircleType ;
if ( circleType = = GXS_CIRCLE_TYPE_LOCAL )
{
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " LOCAL_CIRCLE, cannot send " < < std : : endl ;
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# endif
return false ;
}
if ( circleType = = GXS_CIRCLE_TYPE_PUBLIC )
{
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " PUBLIC_CIRCLE, can send " < < std : : endl ;
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# endif
return true ;
}
if ( circleType = = GXS_CIRCLE_TYPE_EXTERNAL )
{
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " EXTERNAL_CIRCLE, will be sent encrypted. " < < std : : endl ;
# endif
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should_encrypt = true ;
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return true ;
# ifdef TO_BE_REMOVED_OLD_VETTING_FOR_EXTERNAL_CIRCLES
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const RsGxsCircleId & circleId = grpMeta . mCircleId ;
if ( circleId . isNull ( ) )
{
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std : : cerr < < " EXTERNAL_CIRCLE missing NULL CircleId: " < < grpMeta . mGroupId < < std : : endl ;
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// ERROR, will never be shared.
return false ;
}
if ( mCircles - > isLoaded ( circleId ) )
{
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " EXTERNAL_CIRCLE, checking mCircles->canSend " < < std : : endl ;
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# endif
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// the sending authorisation is based on:
// getPgpId(peer_id) being a signer of one GxsId in the Circle
//
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const RsPgpId & pgpId = mPgpUtils - > getPGPId ( sslId ) ;
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bool res = mCircles - > canSend ( circleId , pgpId ) ;
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " answer is: " < < res < < std : : endl ;
# endif
return res ;
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}
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " grp not ready. Adding to vetting list. " < < std : : endl ;
# endif
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toVet . push_back ( GrpIdCircleVet ( grpMeta . mGroupId , circleId , grpMeta . mAuthorId ) ) ;
return false ;
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# endif
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}
if ( circleType = = GXS_CIRCLE_TYPE_YOUREYESONLY )
{
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " YOUREYESONLY, checking further " < < std : : endl ;
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# endif
// a non empty internal circle id means this
// is the personal circle owner
if ( ! grpMeta . mInternalCircle . isNull ( ) )
{
const RsGxsCircleId & internalCircleId = grpMeta . mInternalCircle ;
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " have mInternalCircle - we are Group creator " < < std : : endl ;
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " mCircleId: " < < grpMeta . mCircleId < < std : : endl ;
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " mInternalCircle: " < < grpMeta . mInternalCircle < < std : : endl ;
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# endif
if ( mCircles - > isLoaded ( internalCircleId ) )
{
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " circle Loaded - checking mCircles->canSend " < < std : : endl ;
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# endif
const RsPgpId & pgpId = mPgpUtils - > getPGPId ( sslId ) ;
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bool should_encrypt = false ;
bool res = mCircles - > canSend ( internalCircleId , pgpId , should_encrypt ) ;
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " answer is: " < < res < < std : : endl ;
# endif
return res ;
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}
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Circle Not Loaded - add to vetting " < < std : : endl ;
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# endif
toVet . push_back ( GrpIdCircleVet ( grpMeta . mGroupId , internalCircleId , grpMeta . mAuthorId ) ) ;
return false ;
}
else
{
// an empty internal circle id means this peer can only
// send circle related info from peer he received it
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " mInternalCircle not set, someone else's personal circle " < < std : : endl ;
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# endif
if ( grpMeta . mOriginator = = sslId )
{
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Originator matches -> can send " < < std : : endl ;
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# endif
return true ;
}
else
{
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Originator doesn't match -> cannot send " < < std : : endl ;
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# endif
return false ;
}
}
}
return true ;
}
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bool RsGxsNetService : : checkCanRecvMsgFromPeer ( const RsPeerId & sslId , const RsGxsGrpMetaData & grpMeta , RsGxsCircleId & should_encrypt_id )
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{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " RsGxsNetService::checkCanRecvMsgFromPeer() " ;
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " peer Id = " < < sslId < < " , grpId= " < < grpMeta . mGroupId < < std : : endl ;
# endif
// first do the simple checks
uint8_t circleType = grpMeta . mCircleType ;
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should_encrypt_id . clear ( ) ;
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if ( circleType = = GXS_CIRCLE_TYPE_LOCAL )
{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " LOCAL_CIRCLE, cannot request sync from peer " < < std : : endl ;
# endif
return false ;
}
if ( circleType = = GXS_CIRCLE_TYPE_PUBLIC )
{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " PUBLIC_CIRCLE, can request msg sync " < < std : : endl ;
# endif
return true ;
}
if ( circleType = = GXS_CIRCLE_TYPE_EXTERNAL )
{
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Circle type: EXTERNAL => returning true. Msgs will be encrypted. " < < std : : endl ;
# endif
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should_encrypt_id = grpMeta . mCircleId ;
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return true ;
# ifdef TO_BE_REMOVED_OLD_VETTING_FOR_EXTERNAL_CIRCLES
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const RsGxsCircleId & circleId = grpMeta . mCircleId ;
if ( circleId . isNull ( ) )
{
# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " ERROR; EXTERNAL_CIRCLE missing NULL CircleId " ;
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < grpMeta . mGroupId ;
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < std : : endl ;
# endif
// should just be shared. ? no - this happens for
// Circle Groups which lose their CircleIds.
// return true;
}
if ( mCircles - > isLoaded ( circleId ) )
{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " EXTERNAL_CIRCLE, checking mCircles->canSend " < < std : : endl ;
# endif
const RsPgpId & pgpId = mPgpUtils - > getPGPId ( sslId ) ;
return mCircles - > canSend ( circleId , pgpId ) ;
}
else
mCircles - > loadCircle ( circleId ) ; // simply request for next pass
return false ;
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# endif
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}
if ( circleType = = GXS_CIRCLE_TYPE_YOUREYESONLY ) // do not attempt to sync msg unless to originator or those permitted
{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " YOUREYESONLY, checking further " < < std : : endl ;
# endif
// a non empty internal circle id means this
// is the personal circle owner
if ( ! grpMeta . mInternalCircle . isNull ( ) )
{
const RsGxsCircleId & internalCircleId = grpMeta . mInternalCircle ;
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " have mInternalCircle - we are Group creator " < < std : : endl ;
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " mCircleId: " < < grpMeta . mCircleId < < std : : endl ;
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " mInternalCircle: " < < grpMeta . mInternalCircle < < std : : endl ;
# endif
if ( mCircles - > isLoaded ( internalCircleId ) )
{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " circle Loaded - checking mCircles->canSend " < < std : : endl ;
# endif
const RsPgpId & pgpId = mPgpUtils - > getPGPId ( sslId ) ;
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bool should_encrypt ;
return mCircles - > canSend ( internalCircleId , pgpId , should_encrypt ) ;
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}
else
mCircles - > loadCircle ( internalCircleId ) ; // request for next pass
return false ;
}
else
{
// an empty internal circle id means this peer can only
// send circle related info from peer he received it
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " mInternalCircle not set, someone else's personal circle " < < std : : endl ;
# endif
if ( grpMeta . mOriginator = = sslId )
{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Originator matches -> can send " < < std : : endl ;
# endif
return true ;
}
else
{
# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Originator doesn't match -> cannot send " < < std : : endl ;
# endif
return false ;
}
}
}
return true ;
}
bool RsGxsNetService : : locked_CanReceiveUpdate ( const RsNxsSyncMsgReqItem * item )
{
// Do we have new updates for this peer?
// Here we compare times in the same clock: the friend's clock, so it should be fine.
ServerMsgMap : : const_iterator cit = mServerMsgUpdateMap . find ( item - > grpId ) ;
if ( cit ! = mServerMsgUpdateMap . end ( ) )
{
const RsGxsServerMsgUpdateItem * msui = cit - > second ;
# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " local time stamp: " < < std : : dec < < time ( NULL ) - msui - > msgUpdateTS < < " secs ago. Update sent: " < < ( item - > updateTS < msui - > msgUpdateTS ) < < std : : endl ;
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# endif
return item - > updateTS < msui - > msgUpdateTS ;
}
# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " no local time stamp for this grp. " < < std : : endl ;
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# endif
return false ;
}
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void RsGxsNetService : : handleRecvSyncMessage ( RsNxsSyncMsgReqItem * item , bool item_was_encrypted )
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{
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if ( ! item )
return ;
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RS_STACK_MUTEX ( mNxsMutex ) ;
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const RsPeerId & peer = item - > PeerId ( ) ;
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// Insert the PeerId in suppliers list for this grpId
# ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " RsGxsNetService::handleRecvSyncMessage(): Inserting PeerId " < < item - > PeerId ( ) < < " in suppliers list for group " < < item - > grpId < < std : : endl ;
# endif
RsGroupNetworkStatsRecord & rec ( mGroupNetworkStats [ item - > grpId ] ) ; // this creates it if needed
rec . suppliers . insert ( peer ) ;
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# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " handleRecvSyncMsg(): Received last update TS of group " < < item - > grpId < < " , for peer " < < peer < < " , TS = " < < time ( NULL ) - item - > updateTS < < " secs ago. " ;
# endif
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if ( ! locked_CanReceiveUpdate ( item ) )
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{
# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " no update will be sent. " < < std : : endl ;
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# endif
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return ;
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}
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RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > grpMetas ;
grpMetas [ item - > grpId ] = NULL ;
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mDataStore - > retrieveGxsGrpMetaData ( grpMetas ) ;
RsGxsGrpMetaData * grpMeta = grpMetas [ item - > grpId ] ;
if ( grpMeta = = NULL )
{
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " Grp is unknown. " < < std : : endl ;
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# endif
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return ;
}
if ( ! ( grpMeta - > mSubscribeFlags & GXS_SERV : : GROUP_SUBSCRIBE_SUBSCRIBED ) )
{
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " Grp is not subscribed. " < < std : : endl ;
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# endif
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return ;
}
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if ( ( grpMeta - > mCircleType = = GXS_CIRCLE_TYPE_EXTERNAL ) ! = item_was_encrypted )
{
std : : cerr < < " (EE) received a sync Msg request for group " < < item - > grpId < < " from peer " < < item - > PeerId ( ) ;
if ( ! item_was_encrypted )
std : : cerr < < " . The group is tied to an external circle (ID= " < < grpMeta - > mCircleId < < " ) but the request wasn't encrypted. " < < std : : endl ;
else
std : : cerr < < " . The group is not tied to an external circle (ID= " < < grpMeta - > mCircleId < < " ) but the request was encrypted. " < < std : : endl ;
return ;
}
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GxsMsgReq req ;
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req [ item - > grpId ] = std : : vector < RsGxsMessageId > ( ) ;
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GxsMsgMetaResult metaResult ;
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mDataStore - > retrieveGxsMsgMetaData ( req , metaResult ) ;
std : : vector < RsGxsMsgMetaData * > & msgMetas = metaResult [ item - > grpId ] ;
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " retrieving message meta data. " < < std : : endl ;
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# endif
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if ( req . empty ( ) )
{
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " No msg meta data.. " < < std : : endl ;
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# endif
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}
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# ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " Sending MSG meta data! " < < std : : endl ;
# endif
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std : : list < RsNxsItem * > itemL ;
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uint32_t transN = locked_getTransactionId ( ) ;
RsGxsCircleId should_encrypt_to_this_circle_id ;
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if ( canSendMsgIds ( msgMetas , * grpMeta , peer , should_encrypt_to_this_circle_id ) )
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for ( std : : vector < RsGxsMsgMetaData * > : : iterator vit = msgMetas . begin ( ) ; vit ! = msgMetas . end ( ) ; + + vit )
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{
RsGxsMsgMetaData * m = * vit ;
RsNxsSyncMsgItem * mItem = new RsNxsSyncMsgItem ( mServType ) ;
mItem - > flag = RsNxsSyncGrpItem : : FLAG_RESPONSE ;
mItem - > grpId = m - > mGroupId ;
mItem - > msgId = m - > mMsgId ;
mItem - > authorId = m - > mAuthorId ;
mItem - > PeerId ( peer ) ;
mItem - > transactionNumber = transN ;
if ( ! should_encrypt_to_this_circle_id . isNull ( ) )
{
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " sending info item for msg id " < < mItem - > msgId < < " . Transaction will be encrypted for group " < < should_encrypt_to_this_circle_id < < std : : endl ;
# endif
RsNxsItem * encrypted_item = NULL ;
uint32_t status = RS_NXS_ITEM_ENCRYPTION_STATUS_UNKNOWN ;
if ( encryptSingleNxsItem ( mItem , grpMeta - > mCircleId , encrypted_item , status ) )
{
itemL . push_back ( encrypted_item ) ;
delete mItem ;
}
else
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{
// Something's not ready (probably the circle content. We could put on a vetting list, but actually the client will re-ask the list asap.
std : : cerr < < " (EE) Cannot encrypt msg meta data. MsgId= " < < mItem - > msgId < < " , grpId= " < < mItem - > grpId < < " , circleId= " < < should_encrypt_to_this_circle_id < < " . Dropping the whole list. " < < std : : endl ;
for ( std : : list < RsNxsItem * > : : const_iterator it ( itemL . begin ( ) ) ; it ! = itemL . end ( ) ; + + it )
delete * it ;
itemL . clear ( ) ;
break ;
}
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}
else
{
# ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " sending info item for msg id " < < mItem - > msgId < < " in clear. " < < std : : endl ;
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# endif
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itemL . push_back ( mItem ) ;
}
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}
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# ifdef NXS_NET_DEBUG_0
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else
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " vetting forbids sending. Nothing will be sent. " < < itemL . size ( ) < < " items. " < < std : : endl ;
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# endif
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if ( ! itemL . empty ( ) )
{
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# ifdef NXS_NET_DEBUG_0
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GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " sending final msg info list of " < < itemL . size ( ) < < " items. " < < std : : endl ;
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# endif
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locked_pushMsgRespFromList ( itemL , peer , item - > grpId , transN ) ;
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}
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# ifdef NXS_NET_DEBUG_0
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else
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GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " list is empty! Not sending anything. " < < std : : endl ;
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# endif
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// release meta resource
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for ( std : : vector < RsGxsMsgMetaData * > : : iterator vit = msgMetas . begin ( ) ; vit ! = msgMetas . end ( ) ; + + vit )
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delete * vit ;
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}
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void RsGxsNetService : : locked_pushMsgRespFromList ( std : : list < RsNxsItem * > & itemL , const RsPeerId & sslId , const RsGxsGroupId & grp_id , const uint32_t & transN )
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{
# ifdef NXS_NET_DEBUG_1
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GXSNETDEBUG_PG ( sslId , grp_id ) < < " locked_pushMsgResponseFromList() " < < std : : endl ;
GXSNETDEBUG_PG ( sslId , grp_id ) < < " nelems = " < < itemL . size ( ) < < std : : endl ;
GXSNETDEBUG_PG ( sslId , grp_id ) < < " peerId = " < < sslId < < std : : endl ;
GXSNETDEBUG_PG ( sslId , grp_id ) < < " transN = " < < transN < < std : : endl ;
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# endif
NxsTransaction * tr = new NxsTransaction ( ) ;
tr - > mItems = itemL ;
tr - > mFlag = NxsTransaction : : FLAG_STATE_WAITING_CONFIRM ;
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RsNxsTransacItem * trItem = new RsNxsTransacItem ( mServType ) ;
trItem - > transactFlag = RsNxsTransacItem : : FLAG_BEGIN_P1 | RsNxsTransacItem : : FLAG_TYPE_MSG_LIST_RESP ;
trItem - > nItems = itemL . size ( ) ;
trItem - > timestamp = 0 ;
trItem - > PeerId ( sslId ) ;
trItem - > transactionNumber = transN ;
// also make a copy for the resident transaction
tr - > mTransaction = new RsNxsTransacItem ( * trItem ) ;
tr - > mTransaction - > PeerId ( mOwnId ) ;
tr - > mTimeOut = time ( NULL ) + mTransactionTimeOut ;
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ServerMsgMap : : const_iterator cit = mServerMsgUpdateMap . find ( grp_id ) ;
// This time stamp is not supposed to be used on the other side. We just set it to avoid sending an uninitialiszed value.
if ( cit ! = mServerMsgUpdateMap . end ( ) )
trItem - > updateTS = cit - > second - > msgUpdateTS ;
else
{
std : : cerr < < " (EE) cannot find a server TS for message of group " < < grp_id < < " in locked_pushMsgRespFromList. This is weird. " < < std : : endl ;
trItem - > updateTS = 0 ;
}
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# ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ ( sslId ) < < " Service " < < std : : hex < < ( ( mServiceInfo . mServiceType > > 8 ) & 0xffff ) < < std : : dec < < " - sending messages response to peer "
< < sslId < < " with " < < itemL . size ( ) < < " messages " < < std : : endl ;
# endif
// signal peer to prepare for transaction
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if ( locked_addTransaction ( tr ) )
sendItem ( trItem ) ;
else
{
delete tr ;
delete trItem ;
}
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}
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bool RsGxsNetService : : canSendMsgIds ( std : : vector < RsGxsMsgMetaData * > & msgMetas , const RsGxsGrpMetaData & grpMeta , const RsPeerId & sslId , RsGxsCircleId & should_encrypt_id )
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{
# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " RsGxsNetService::canSendMsgIds() CIRCLE VETTING " < < std : : endl ;
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# endif
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// first do the simple checks
uint8_t circleType = grpMeta . mCircleType ;
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if ( circleType = = GXS_CIRCLE_TYPE_LOCAL )
{
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Circle type: LOCAL => returning false " < < std : : endl ;
# endif
return false ;
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}
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if ( circleType = = GXS_CIRCLE_TYPE_PUBLIC )
{
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Circle type: PUBLIC => returning true " < < std : : endl ;
# endif
return true ;
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}
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const RsGxsCircleId & circleId = grpMeta . mCircleId ;
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if ( circleType = = GXS_CIRCLE_TYPE_EXTERNAL )
{
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Circle type: EXTERNAL => returning true. Msgs ids list will be encrypted. " < < std : : endl ;
# endif
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should_encrypt_id = circleId ;
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// For each message ID, check that the author is in the circle. If not, do not send the message, which means, remove it from the list.
// Unsigned messages are still transmitted. This is because in some groups (channels) the posts are not signed. Whether an unsigned post
// is allowed at this point is anyway already vetted by the RsGxsGenExchange service.
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// Messages that stay in the list will be sent. As a consequence true is always returned.
// Messages put in vetting list will be dealt with later
std : : vector < MsgIdCircleVet > toVet ;
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for ( uint32_t i = 0 ; i < msgMetas . size ( ) ; )
if ( msgMetas [ i ] - > mAuthorId . isNull ( ) ) // keep the message in this case
+ + i ;
else
{
if ( mCircles - > isLoaded ( circleId ) & & mCircles - > isRecipient ( circleId , msgMetas [ i ] - > mAuthorId ) )
{
+ + i ;
continue ;
}
MsgIdCircleVet mic ( msgMetas [ i ] - > mMsgId , msgMetas [ i ] - > mAuthorId ) ;
toVet . push_back ( mic ) ;
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# ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " deleting MsgMeta entry for msg ID " < < msgMetas [ i ] - > mMsgId < < " signed by " < < msgMetas [ i ] - > mAuthorId < < " who is not in group circle " < < circleId < < std : : endl ;
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# endif
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delete msgMetas [ i ] ;
msgMetas [ i ] = msgMetas [ msgMetas . size ( ) - 1 ] ;
msgMetas . pop_back ( ) ;
}
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Circle info not loaded. Putting in vetting list and returning false. " < < std : : endl ;
# endif
if ( ! toVet . empty ( ) )
mPendingCircleVets . push_back ( new MsgCircleIdsRequestVetting ( mCircles , mPgpUtils , toVet , grpMeta . mGroupId , sslId , grpMeta . mCircleId ) ) ;
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return true ;
}
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if ( circleType = = GXS_CIRCLE_TYPE_YOUREYESONLY )
{
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Circle type: YOUR EYES ONLY " < < std : : endl ;
# endif
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// a non empty internal circle id means this
// is the personal circle owner
if ( ! grpMeta . mInternalCircle . isNull ( ) )
{
const RsGxsCircleId & internalCircleId = grpMeta . mInternalCircle ;
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Group internal circle: " < < internalCircleId < < std : : endl ;
# endif
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if ( mCircles - > isLoaded ( internalCircleId ) )
{
const RsPgpId & pgpId = mPgpUtils - > getPGPId ( sslId ) ;
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bool should_encrypt = false ;
bool res = mCircles - > canSend ( internalCircleId , pgpId , should_encrypt ) ;
if ( should_encrypt )
std : : cerr < < " (EE) inconsistent response: vetting requests to encrypt circle of type YOUR_EYES_ONLY " < < std : : endl ;
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Answer from circle::canSend(): " < < res < < std : : endl ;
# endif
return res ;
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}
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Not loaded. Putting in vetting list and returning false. " < < std : : endl ;
# endif
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std : : vector < MsgIdCircleVet > toVet ;
std : : vector < RsGxsMsgMetaData * > : : const_iterator vit = msgMetas . begin ( ) ;
for ( ; vit ! = msgMetas . end ( ) ; + + vit )
{
const RsGxsMsgMetaData * const & meta = * vit ;
MsgIdCircleVet mic ( meta - > mMsgId , meta - > mAuthorId ) ;
toVet . push_back ( mic ) ;
}
if ( ! toVet . empty ( ) )
mPendingCircleVets . push_back ( new MsgCircleIdsRequestVetting ( mCircles , mPgpUtils ,
toVet , grpMeta . mGroupId ,
sslId , grpMeta . mCircleId ) ) ;
return false ;
}
else
{
// an empty internal circle id means this peer can only
// send circle related info from peer he received it
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# ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG ( sslId , grpMeta . mGroupId ) < < " Empty internal circle: cannot only send info from Peer we received it (grpMeta.mOriginator= " < < grpMeta . mOriginator < < " answer is: " < < ( grpMeta . mOriginator = = sslId ) < < std : : endl ;
# endif
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if ( grpMeta . mOriginator = = sslId )
return true ;
else
return false ;
}
}
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return false ;
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}
/** inherited methods **/
void RsGxsNetService : : pauseSynchronisation ( bool /* enabled */ )
{
}
void RsGxsNetService : : setSyncAge ( uint32_t /* age */ )
{
}
int RsGxsNetService : : requestGrp ( const std : : list < RsGxsGroupId > & grpId , const RsPeerId & peerId )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
mExplicitRequest [ peerId ] . assign ( grpId . begin ( ) , grpId . end ( ) ) ;
return 1 ;
}
void RsGxsNetService : : processExplicitGroupRequests ( )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
std : : map < RsPeerId , std : : list < RsGxsGroupId > > : : const_iterator cit = mExplicitRequest . begin ( ) ;
for ( ; cit ! = mExplicitRequest . end ( ) ; + + cit )
{
const RsPeerId & peerId = cit - > first ;
const std : : list < RsGxsGroupId > & groupIdList = cit - > second ;
std : : list < RsNxsItem * > grpSyncItems ;
std : : list < RsGxsGroupId > : : const_iterator git = groupIdList . begin ( ) ;
uint32_t transN = locked_getTransactionId ( ) ;
for ( ; git ! = groupIdList . end ( ) ; + + git )
{
RsNxsSyncGrpItem * item = new RsNxsSyncGrpItem ( mServType ) ;
item - > grpId = * git ;
item - > PeerId ( peerId ) ;
item - > flag = RsNxsSyncGrpItem : : FLAG_REQUEST ;
item - > transactionNumber = transN ;
grpSyncItems . push_back ( item ) ;
}
if ( ! grpSyncItems . empty ( ) )
locked_pushGrpTransactionFromList ( grpSyncItems , peerId , transN ) ;
}
mExplicitRequest . clear ( ) ;
}
int RsGxsNetService : : sharePublishKey ( const RsGxsGroupId & grpId , const std : : set < RsPeerId > & peers )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
mPendingPublishKeyRecipients [ grpId ] = peers ;
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG__G ( grpId ) < < " RsGxsNetService::sharePublishKeys() " < < ( void * ) this < < " adding publish keys for grp " < < grpId < < " to sending list " < < std : : endl ;
# endif
return true ;
}
void RsGxsNetService : : sharePublishKeysPending ( )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
if ( mPendingPublishKeyRecipients . empty ( ) )
return ;
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG___ < < " RsGxsNetService::sharePublishKeys() " < < ( void * ) this < < std : : endl ;
# endif
// get list of peers that are online
std : : set < RsPeerId > peersOnline ;
std : : list < RsGxsGroupId > toDelete ;
std : : map < RsGxsGroupId , std : : set < RsPeerId > > : : iterator mit ;
mNetMgr - > getOnlineList ( mServiceInfo . mServiceType , peersOnline ) ;
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG___ < < " " < < peersOnline . size ( ) < < " peers online. " < < std : : endl ;
# endif
/* send public key to peers online */
for ( mit = mPendingPublishKeyRecipients . begin ( ) ; mit ! = mPendingPublishKeyRecipients . end ( ) ; + + mit )
{
// Compute the set of peers to send to. We start with this, to avoid retrieving the data for nothing.
std : : list < RsPeerId > recipients ;
std : : set < RsPeerId > offline_recipients ;
for ( std : : set < RsPeerId > : : const_iterator it ( mit - > second . begin ( ) ) ; it ! = mit - > second . end ( ) ; + + it )
if ( peersOnline . find ( * it ) ! = peersOnline . end ( ) )
{
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_P_ ( * it ) < < " " < < * it < < " : online. Adding. " < < std : : endl ;
# endif
recipients . push_back ( * it ) ;
}
else
{
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_P_ ( * it ) < < " " < < * it < < " : offline. Keeping for next try. " < < std : : endl ;
# endif
offline_recipients . insert ( * it ) ;
}
// If empty, skip
if ( recipients . empty ( ) )
{
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG___ < < " No recipients online. Skipping. " < < std : : endl ;
# endif
continue ;
}
// Get the meta data for this group Id
//
RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > grpMetaMap ;
grpMetaMap [ mit - > first ] = NULL ;
mDataStore - > retrieveGxsGrpMetaData ( grpMetaMap ) ;
// Find the publish keys in the retrieved info
RsGxsGrpMetaData * grpMeta = grpMetaMap [ mit - > first ] ;
if ( grpMeta = = NULL )
{
std : : cerr < < " (EE) RsGxsNetService::sharePublishKeys() Publish keys cannot be found for group " < < mit - > first < < std : : endl ;
continue ;
}
const RsTlvSecurityKeySet & keys = grpMeta - > keys ;
std : : map < RsGxsId , RsTlvSecurityKey > : : const_iterator kit = keys . keys . begin ( ) , kit_end = keys . keys . end ( ) ;
bool publish_key_found = false ;
RsTlvSecurityKey publishKey ;
for ( ; kit ! = kit_end & & ! publish_key_found ; + + kit )
{
publish_key_found = ( kit - > second . keyFlags = = ( RSTLV_KEY_DISTRIB_PUBLISH | RSTLV_KEY_TYPE_FULL ) ) ;
publishKey = kit - > second ;
}
if ( ! publish_key_found )
{
std : : cerr < < " (EE) no publish key in group " < < mit - > first < < " . Cannot share! " < < std : : endl ;
continue ;
}
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG__G ( grpMeta - > mGroupId ) < < " using publish key ID= " < < publishKey . keyId < < " , flags= " < < publishKey . keyFlags < < std : : endl ;
# endif
for ( std : : list < RsPeerId > : : const_iterator it ( recipients . begin ( ) ) ; it ! = recipients . end ( ) ; + + it )
{
/* Create publish key sharing item */
RsNxsGroupPublishKeyItem * publishKeyItem = new RsNxsGroupPublishKeyItem ( mServType ) ;
publishKeyItem - > clear ( ) ;
publishKeyItem - > grpId = mit - > first ;
publishKeyItem - > key = publishKey ;
publishKeyItem - > PeerId ( * it ) ;
sendItem ( publishKeyItem ) ;
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG ( * it , grpMeta - > mGroupId ) < < " sent key item to " < < * it < < std : : endl ;
# endif
}
mit - > second = offline_recipients ;
// If given peers have all received key(s) then stop sending for group
if ( offline_recipients . empty ( ) )
toDelete . push_back ( mit - > first ) ;
}
// delete pending peer list which are done with
for ( std : : list < RsGxsGroupId > : : const_iterator lit = toDelete . begin ( ) ; lit ! = toDelete . end ( ) ; + + lit )
mPendingPublishKeyRecipients . erase ( * lit ) ;
}
void RsGxsNetService : : handleRecvPublishKeys ( RsNxsGroupPublishKeyItem * item )
{
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " RsGxsNetService::sharePublishKeys() " < < std : : endl ;
# endif
if ( ! item )
return ;
RS_STACK_MUTEX ( mNxsMutex ) ;
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " PeerId : " < < item - > PeerId ( ) < < std : : endl ;
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " GrpId: " < < item - > grpId < < std : : endl ;
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " Got key Item: " < < item - > key . keyId < < std : : endl ;
# endif
// Get the meta data for this group Id
//
RsGxsMetaDataTemporaryMap < RsGxsGrpMetaData > grpMetaMap ;
grpMetaMap [ item - > grpId ] = NULL ;
mDataStore - > retrieveGxsGrpMetaData ( grpMetaMap ) ;
// update the publish keys in this group meta info
RsGxsGrpMetaData * grpMeta = grpMetaMap [ item - > grpId ] ;
// Check that the keys correspond, and that FULL keys are supplied, etc.
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " Key received: " < < std : : endl ;
# endif
bool admin = ( item - > key . keyFlags & RSTLV_KEY_DISTRIB_ADMIN ) & & ( item - > key . keyFlags & RSTLV_KEY_TYPE_FULL ) ;
bool publi = ( item - > key . keyFlags & RSTLV_KEY_DISTRIB_PUBLISH ) & & ( item - > key . keyFlags & RSTLV_KEY_TYPE_FULL ) ;
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " Key id = " < < item - > key . keyId < < " admin= " < < admin < < " , publish= " < < publi < < " ts= " < < item - > key . endTS < < std : : endl ;
# endif
if ( ! ( ! admin & & publi ) )
{
std : : cerr < < " Key is not a publish private key. Discarding! " < < std : : endl ;
return ;
}
// Also check that we don't already have full keys for that group.
std : : map < RsGxsId , RsTlvSecurityKey > : : iterator it = grpMeta - > keys . keys . find ( item - > key . keyId ) ;
if ( it = = grpMeta - > keys . keys . end ( ) )
{
std : : cerr < < " (EE) Key not found in known group keys. This is an inconsistency. " < < std : : endl ;
return ;
}
if ( ( it - > second . keyFlags & RSTLV_KEY_DISTRIB_PUBLISH ) & & ( it - > second . keyFlags & RSTLV_KEY_TYPE_FULL ) )
{
# ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " (EE) Publish key already present in database. Discarding message. " < < std : : endl ;
# endif
return ;
}
// Store/update the info.
it - > second = item - > key ;
bool ret = mDataStore - > updateGroupKeys ( item - > grpId , grpMeta - > keys , grpMeta - > mSubscribeFlags | GXS_SERV : : GROUP_SUBSCRIBE_PUBLISH ) ;
if ( ret )
{
# ifdef NXS_NET_DEBUG
GXSNETDEBUG_PG ( item - > PeerId ( ) , item - > grpId ) < < " updated database with new publish keys. " < < std : : endl ;
# endif
mObserver - > notifyReceivePublishKey ( item - > grpId ) ;
}
else
{
std : : cerr < < " (EE) could not update database. Something went wrong. " < < std : : endl ;
}
}
2016-03-21 23:21:26 -04:00
bool RsGxsNetService : : getGroupServerUpdateTS ( const RsGxsGroupId & gid , time_t & group_server_update_TS , time_t & msg_server_update_TS )
{
RS_STACK_MUTEX ( mNxsMutex ) ;
if ( mGrpServerUpdateItem = = NULL )
return false ;
group_server_update_TS = mGrpServerUpdateItem - > grpUpdateTS ;
std : : map < RsGxsGroupId , RsGxsServerMsgUpdateItem * > : : iterator it = mServerMsgUpdateMap . find ( gid ) ;
if ( mServerMsgUpdateMap . end ( ) = = it )
msg_server_update_TS = 0 ;
else
msg_server_update_TS = it - > second - > msgUpdateTS ;
return true ;
}